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U-Tech General Laboratory Equipments

Showing 40 out of 65 products

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U-Tech Control Box With Humidistat for 5L Stainless Steel Humidifier SSI-169
sku-leadTime Ships within 3 days
U-Tech Control Box With Humidistat for 5L Stainless Steel Humidifier SSI-169
By U-Tech
₹10,029  
The U-Tech Control Box with Humidistat is a specialized accessory designed for use with the 5L Stainless Steel Humidifier SSI-169. It provides enhanced control and regulation of humidity levels in the environment where the humidifier is utilized.
The Control Box with Humidistat combines two essential components: the control box and the humidistat. The control box serves as the central unit that connects and controls the operation of the humidifier, while the humidistat measures and monitors the humidity levels in the surrounding area.
The control box typically features an interface with buttons, dials, or a digital display that allows users to adjust and set the desired humidity level. It also provides power distribution and protection for the humidifier, ensuring safe and reliable operation.
The humidistat component of the U-Tech Control Box with Humidistat continuously measures the humidity levels in the environment. It compares the measured humidity to the setpoint determined by the user and sends signals to the control box to regulate the operation of the humidifier accordingly. When the humidity falls below the setpoint, the control box activates the humidifier to increase moisture output, and vice versa when the humidity exceeds the setpoint.
The U-Tech Control Box with Humidistat offers precise and automated control of humidity levels, allowing users to maintain optimal conditions in various settings. It is particularly beneficial in environments where consistent and controlled humidity levels are critical, such as in laboratories, cleanrooms, or specific industrial processes.
To ensure compatibility and proper installation, it is recommended to refer to the specific product documentation and guidelines provided by U-Tech for the Control Box with Humidistat and the 5L Stainless Steel Humidifier SSI-169. The manufacturer's instructions will provide detailed information on how to integrate and operate the control box with the humidifier for optimal performance and efficiency.
By incorporating the U-Tech Control Box with Humidistat into the 5L Stainless Steel Humidifier SSI-169 setup, users gain enhanced control and regulation over humidity levels, allowing for a comfortable and controlled environment that meets specific requirements.
U-Tech 2 kVA Voltage Stabilizer for BOD Incubator SSI-114
sku-leadTime Ships within 15 days
U-Tech 2 kVA Voltage Stabilizer for BOD Incubator SSI-114
By U-Tech
₹16,519  
U-Tech 2 kVA Voltage Stabilizer for BOD Incubator SSI-114 is an electrical device designed to maintain a stable and constant voltage level for electrical appliances and equipment. It compensates for fluctuations in the input voltage, ensuring that the output voltage remains within a specific range, typically ±10% of the rated voltage.
The primary function of a voltage stabilizer is to protect electrical devices from voltage variations that can cause damage or malfunction. Voltage fluctuations can occur due to several factors, including fluctuations in the power grid, load variations, or the presence of electrical equipment with high starting currents. A voltage stabilizer works by continuously monitoring the input voltage and adjusting the output voltage to maintain a stable and optimal voltage supply.
Voltage stabilizers are available in different types, including servo-controlled voltage stabilizers and static voltage stabilizers. Servo-controlled stabilizers use a servo motor-driven variable transformer to adjust the output voltage. They are highly accurate and provide quick response to voltage fluctuations. Static voltage stabilizers, on the other hand, use solid-state electronic components to regulate the output voltage. They offer faster response times and higher efficiency compared to servo-controlled stabilizers.
Voltage stabilizers offer several benefits in various applications. They protect sensitive electrical equipment such as computers, televisions, refrigerators, and medical devices from voltage fluctuations. By ensuring a stable voltage supply, they prevent damage to the devices and extend their lifespan. Voltage stabilizers also improve the efficiency and performance of electrical equipment by providing them with a consistent voltage level.
In areas with unreliable or fluctuating power supply, voltage stabilizers are essential for maintaining stable voltage conditions. They are widely used in industries, commercial establishments, and residential buildings. In industries, voltage stabilizers protect critical equipment, machinery, and production processes from voltage variations, minimizing downtime and maintaining productivity. In residential settings, they safeguard household appliances and electronics, preventing damage caused by voltage fluctuations.
Modern voltage stabilizers often incorporate additional features such as surge protection, overload protection, and short-circuit protection. These features provide an extra layer of protection to connected equipment against power surges, electrical faults, and other electrical disturbances.
In summary, a voltage stabilizer is an electrical device that maintains a stable and constant voltage level for electrical appliances and equipment. It compensates for fluctuations in the input voltage, protecting devices from damage or malfunction. Voltage stabilizers offer benefits such as equipment protection, improved efficiency, and enhanced performance. They find applications in industries, commercial establishments, and residential buildings, ensuring stable voltage conditions and preventing damage caused by voltage fluctuations.
U-Tech DB 70 Double Bed Deionizer for Laboratories SSI-145
sku-leadTime Ships within 10 days
U-Tech DB 70 Double Bed Deionizer for Laboratories SSI-145
By U-Tech
₹40,119  
U-Tech DB 70 Double Bed Deionizer for Laboratories SSI-145 is a type of water treatment system designed to remove ions from water and produce purified water for various applications. It consists of two beds filled with ion exchange resins, each bed performing a specific function in the deionization process.
The first bed in a double bed deionizer is known as the cation exchange resin bed. This bed contains cation exchange resin that attracts and exchanges positively charged ions (cations) in the water with hydrogen ions. Common cations removed from the water include calcium, magnesium, sodium, and iron. This process effectively softens the water and removes these mineral ions.
The second bed is the anion exchange resin bed. This bed contains anion exchange resin that attracts and exchanges negatively charged ions (anions) in the water with hydroxide ions. Common anions removed from the water include chloride, sulfate, nitrate, and carbonate. This process further purifies the water by removing these impurities.
The double bed deionizer operates in a series configuration, with the water passing through the cation exchange resin bed first and then through the anion exchange resin bed. By utilizing two distinct beds, the system can achieve a higher level of purity compared to a single-bed deionizer.
The ion exchange resins in the beds have a finite capacity for ion removal. Over time, as the resins become saturated with ions, their effectiveness decreases. To regenerate the system, a regeneration process is performed. During regeneration, the resins are subjected to specific chemicals or processes to restore their ion exchange capacity. This ensures the continued effectiveness of the double bed deionizer.
Double bed deionizers are commonly used in various industries and applications where high-purity water is required. These include laboratory research, pharmaceutical manufacturing, electronics production, power generation, and more. The purified water produced by a double bed deionizer can be used for equipment calibration, chemical analysis, rinsing of precision instruments, and other critical processes that demand ultra-pure water.
In summary, a double bed deionizer is a water treatment system that utilizes two beds of ion exchange resins to remove cations and anions from water, producing highly purified water. Its configuration allows for increased purity compared to single-bed deionizers, making it suitable for a range of applications that require high-quality, deionized water.
U-Tech 220 V AC Pensky Marten Flash Point Apparatus SSI-402
sku-leadTime Ships within 15 days
U-Tech 220 V AC Pensky Marten Flash Point Apparatus SSI-402
By U-Tech
₹36,579  
The U-Tech 220 V AC Pensky Marten Flash Point Apparatus SSI-402 is a widely used instrument for determining the flash point of petroleum products and other flammable substances. It is an essential tool in industries such as oil and gas, petrochemicals, and transportation, where the knowledge of a substance's flammability characteristics is crucial for safety, handling, and storage purposes.
The Pensky Marten flash point apparatus consists of a test cup, a heating unit, a temperature control system, an ignition source, and a stirring mechanism. The test cup is filled with the sample being tested, and it is heated gradually by the heating unit. The temperature is controlled and monitored using a thermometer or a temperature sensor.
During the test, the sample is heated at a controlled rate while being stirred continuously. An open flame or electric spark is then introduced periodically above the sample to test for the presence of ignitable vapors. The flash point is determined when a flash occurs, indicating the release of sufficient vapors to ignite momentarily.
The Pensky Marten apparatus follows recognized testing standards such as ASTM D93 and ISO 2719, which provide detailed procedures, apparatus specifications, and safety guidelines. These standards ensure consistent and reliable measurements of the flash point.
The flash point of a substance is a critical parameter used in assessing its flammability and safety. It indicates the lowest temperature at which a substance emits enough vapors to ignite when exposed to an ignition source. This information helps determine appropriate handling, storage, and transportation procedures for flammable materials, minimizing the risk of fire and explosions.
The Pensky Marten flash point apparatus offers several advantages, including precise temperature control, reliable ignition mechanisms, and the ability to accommodate a wide range of sample types. It provides accurate flash point measurements for various petroleum products, including fuels, lubricants, and solvents.
Regular calibration and maintenance of the Pensky Marten apparatus are crucial to ensure accurate and reliable results. Calibrating the apparatus against certified reference materials helps verify its accuracy and identify any deviations.
In summary, the Pensky Marten flash point apparatus is a widely used instrument for determining the flash point of petroleum products and flammable substances. It plays a vital role in assessing flammability characteristics, ensuring safety in handling, storage, and transportation. By adhering to recognized standards and employing precise temperature control and reliable ignition mechanisms, this apparatus provides valuable information for industries where flammable substances are present.
U-Tech IP-16C Spare Low Range Thermometer for Pensky Marten Flash Point Apparatus SSI-402
sku-leadTime Ships within 15 days
U-Tech Spare Low Range Thermometer for Pensky Marten Flash Point Apparatus SSI-402
By U-Tech
₹2,713 - ₹4,011
U-Tech IR-15C Spare Low Range Thermometer for Pensky Marten Flash Point Apparatus SSI-402 refers to an additional thermometer kept on hand as a backup or replacement for measuring temperature in various laboratory instruments and processes. It serves as a contingency measure to ensure uninterrupted temperature monitoring and accurate measurements in the event of a malfunction or failure of the primary thermometer.
In a laboratory setting, temperature measurement is crucial for numerous experiments, reactions, and processes. It is essential to have reliable and accurate temperature readings to maintain optimal conditions, ensure experimental reproducibility, and guarantee the safety of personnel and equipment.
By having a spare thermometer readily available, laboratory technicians and researchers can quickly replace a faulty or damaged thermometer without disrupting ongoing procedures or experiments. This ensures minimal downtime and allows for continuity in data collection and analysis.
A spare thermometer for lab equipment can be used in various instruments such as incubators, ovens, refrigerators, water baths, distillation apparatus, and other temperature-controlled devices. It is typically calibrated and validated to ensure accuracy and traceability to recognized standards.
When selecting a spare thermometer, it is important to consider the specific requirements of the laboratory equipment and the measurement range needed. Different thermometers may have varying measurement ranges, resolutions, and accuracies to suit different applications. For example, a mercury-in-glass thermometer might be suitable for some applications, while a digital thermometer with a probe may be more appropriate for others.
Regular calibration and maintenance of both the primary and spare thermometers are essential to ensure accuracy and reliability. Calibrating the thermometers against traceable standards helps verify their accuracy and identify any potential deviations. It is also important to store the spare thermometer properly, protecting it from damage, contamination, and extreme temperature conditions.
In summary, a spare thermometer for laboratory equipment is an additional thermometer kept on hand as a backup or replacement for measuring temperature in various laboratory instruments and processes. It ensures uninterrupted temperature monitoring, allows for quick replacement of faulty thermometers, and maintains accuracy in temperature measurements. By having a spare thermometer available, laboratories can minimize downtime, ensure experimental reproducibility, and maintain the integrity of their research and processes.
green checkType of Product : Spare Low Range Thermometer
green checkMaterial : Glass
green checkModel No : SSI-402
green checkPower Source : Electric Corded
green checkApplication Area : Laboratories
green checkUsage For : As Accessory
green checkIdeal For : Pensky Marten Flash Point Apparatus
U-Tech 4kVA Triple Relay Automatic Stabilizer for Deep Freezer SSI-120
sku-leadTime Ships within 15 days
U-Tech 4kVA Triple Relay Automatic Stabilizer for Deep Freezer SSI-120
By U-Tech
₹22,419  
U-Tech 4kVA Triple Relay Automatic Stabilizer for Deep Freezer SSI-120 refers to a fiscal or economic policy feature that helps stabilize an economy without requiring explicit, discretionary intervention from policymakers. It is designed to automatically mitigate the impact of economic fluctuations and stabilize aggregate demand during periods of expansion or contraction.
One example of an automatic stabilizer is the progressive income tax system. In times of economic growth, individuals and businesses earn higher incomes, leading to an increase in tax revenues. As a result, the government's tax revenue automatically rises, helping to reduce the fiscal deficit or even generate a surplus. This helps to moderate the pace of economic expansion and prevent overheating.
Conversely, during economic downturns, when incomes decline, individuals and businesses pay lower taxes, reducing their tax burden. This increase in disposable income allows households and firms to maintain a certain level of consumption and investment, thereby cushioning the impact of the economic downturn.
Another example of an automatic stabilizer is the unemployment insurance system. During economic contractions, the number of unemployed individuals tends to rise. Unemployment insurance provides temporary financial assistance to those who have lost their jobs. This helps support individuals and their families during difficult times, maintaining a basic level of consumption and reducing the severity of the economic downturn.
Automatic stabilizers have several advantages. First, they operate without the need for discretionary action, which can be time-consuming and subject to political constraints. Second, they are countercyclical in nature, meaning they automatically respond to changes in the business cycle, helping to stabilize economic activity. Third, they provide a degree of certainty and predictability to households and businesses, as they know that certain measures are in place to support them during economic downturns.
In summary, automatic stabilizers are built-in features of fiscal and economic policies that help stabilize an economy by automatically adjusting tax revenues, government spending, and social welfare programs in response to economic fluctuations. They play a crucial role in smoothing the business cycle, reducing volatility, and providing support to individuals and businesses during challenging economic times.
U-Tech 5 kVA Triple Relay Automatic Stabilizer for Laboratories SSI-124
sku-leadTime Ships within 15 days
U-Tech Triple Relay Automatic Stabilizer for Laboratories SSI-124
By U-Tech
₹18,879 - ₹43,659
The U-Tech Triple Relay Automatic Stabilizer for Laboratories SSI-124 is a specialized voltage regulation device tailored for laboratory environments. With its triple relay system, this stabilizer ensures precise voltage correction and protection against fluctuations in the electrical supply. Designed specifically for laboratory use, this stabilizer features advanced technology to continuously monitor input voltage levels and automatically adjust output voltage to maintain a stable electrical supply. This ensures consistent and reliable power delivery to sensitive laboratory equipment, minimizing the risk of damage due to voltage fluctuations. Equipped with a triple relay system, this stabilizer provides enhanced voltage stability and protection by employing multiple relays to regulate voltage levels and safeguard connected devices from overvoltage, undervoltage, and voltage spikes. The U-Tech SSI-124 stabilizer is designed to operate seamlessly in laboratory environments, with features such as a compact footprint and quiet operation to minimize disruption to experimental procedures. Its user-friendly interface allows for easy monitoring of voltage levels and adjustments to settings as needed. Constructed with durability and reliability in mind, this stabilizer is built to withstand the demands of laboratory use, ensuring long-term performance and peace of mind for laboratory operators. Overall, the U-Tech Triple Relay Automatic Stabilizer for Laboratories SSI-124 offers precise voltage regulation and protection, making it an essential component of laboratory infrastructure. Its advanced features, reliability, and compatibility with laboratory equipment make it an invaluable asset for maintaining stable power supply in laboratory environments.
green checkType of Product : Automatic Stabilizer
green checkMaterial : Stainless Steel
green checkModel No : SSI-124
green checkVoltage : 220-230 V AC
green checkApplication Area : Laboratories
green checkRelay Type : Triple Relay
U-Tech Automatic German Timer for SS Aerosol Disinfector SSI-168
sku-leadTime Ships within 15 days
U-Tech Automatic German Timer for SS Aerosol Disinfector SSI-168
By U-Tech
₹4,719  
The U-Tech Automatic German Timer is an accessory designed for use with the SS Aerosol Disinfector SSI-168. It is a specialized timer that allows users to set and control the operating duration of the aerosol disinfector, ensuring precise and automated disinfection cycles.
The SS Aerosol Disinfector SSI-168 is a device used for disinfecting or sanitizing enclosed spaces or surfaces by releasing a fine aerosol mist containing a disinfectant agent. It is commonly employed in various settings, including hospitals, laboratories, pharmaceutical facilities, and other environments where effective disinfection is crucial.
The U-Tech Automatic German Timer, when used with the SS Aerosol Disinfector SSI-168, provides a convenient and reliable way to set the duration of the disinfection cycle. It typically allows users to select the desired operating time, often displayed on a digital or analog interface.
Once the timer is set, it initiates the aerosol disinfector to release the disinfectant mist for the selected time period. After the set time has elapsed, the timer automatically shuts off the aerosol disinfector, indicating the completion of the disinfection cycle.
The U-Tech Automatic German Timer enhances the functionality of the SS Aerosol Disinfector SSI-168 by providing an automated and controlled disinfection process. It eliminates the need for manual monitoring and timing, ensuring consistent and accurate disinfection cycles.
It is important to refer to the specific product documentation and manufacturer guidelines for detailed information on the U-Tech Automatic German Timer and its operation with the SS Aerosol Disinfector SSI-168. The manufacturer's instructions will provide specific instructions on how to properly connect and utilize the timer with the aerosol disinfector.
By incorporating the U-Tech Automatic German Timer into the SS Aerosol Disinfector SSI-168 setup, users can achieve precise and automated disinfection cycles. This contributes to the efficiency, effectiveness, and convenience of the disinfection process, ensuring the targeted spaces or surfaces are thoroughly sanitized according to specific time requirements.
U-Tech 5 L Stainless Steel Humidifier for Laboratories SSI-169
sku-leadTime Ships within 15 days
U-Tech 5 L Stainless Steel Humidifier for Laboratories SSI-169
By U-Tech
₹42,479  
The U-Tech 5L Stainless Steel Humidifier, specifically designed for laboratory use, is a device used to increase and regulate humidity levels in laboratory environments. It offers a reliable and efficient solution for maintaining optimal humidity conditions necessary for various laboratory procedures and experiments.
The SSI-169 model of the U-Tech 5L Stainless Steel Humidifier is specifically tailored for laboratory applications, offering a capacity of 5 liters, which allows for sustained operation and consistent moisture output. The stainless steel construction ensures durability, resistance to corrosion, and ease of cleaning, making it suitable for laboratory settings where cleanliness and hygiene are crucial.
The U-Tech 5L Stainless Steel Humidifier utilizes advanced technology to generate and disperse moisture into the laboratory environment. It typically features a water reservoir or tank that can hold up to 5 liters of water. The humidifier incorporates mechanisms to convert water into fine mist or vapor, which is then released into the laboratory space to increase humidity levels.
The humidifier may include control options such as adjustable output settings or a built-in humidistat to precisely regulate humidity levels based on specific requirements. This allows users to maintain a consistent and controlled environment suitable for various laboratory applications, such as cell culture, sample storage, or experimental setups that demand specific humidity conditions.
The U-Tech 5L Stainless Steel Humidifier for Laboratories, SSI-169, is designed to be user-friendly and reliable, offering ease of operation and maintenance. It is crucial to follow the manufacturer's instructions and guidelines for proper installation, usage, and maintenance to ensure optimal performance and longevity of the humidifier.
By incorporating the U-Tech 5L Stainless Steel Humidifier into laboratory settings, researchers and scientists can create and maintain controlled humidity conditions essential for their experiments, processes, and equipment. It provides a reliable and efficient solution to achieve and maintain the desired humidity levels, contributing to the accuracy and success of laboratory procedures and research.
U-Tech 0 to 60 minutes Automatic German Timer for 5L Stainless Steel Humidifier SSI-169
sku-leadTime Ships within 15 days
U-Tech 0 to 60 minutes Automatic German Timer for 5L Stainless Steel Humidifier SSI-169
By U-Tech
₹4,719  
The U-Tech 0 to 60 minutes Automatic German Timer is a specialized timer designed for use with the 5L Stainless Steel Humidifier SSI-169. It is a convenient and precise timing device that allows users to set and control the operating duration of the humidifier.
Humidifiers, such as the SSI-169, are used to increase the moisture levels in a specific environment. They are commonly used in various settings, including homes, offices, and laboratories, to improve air quality and maintain optimal humidity levels for comfort or specific applications.
The U-Tech Automatic German Timer provides a time setting range from 0 to 60 minutes, allowing users to select the desired operating duration for the humidifier. This feature enables automated control of the humidifier's operation without the need for manual monitoring or intervention.
The timer is designed to be user-friendly, typically incorporating a dial or digital interface for setting the desired time duration. Once the timer is set, it will initiate the operation of the humidifier for the selected time period and automatically shut off once the set time has elapsed.
The U-Tech Automatic German Timer enhances the functionality and convenience of the 5L Stainless Steel Humidifier SSI-169 by allowing users to preselect the operating duration according to their specific needs. This can be particularly useful in situations where consistent and controlled humidity levels are desired, such as in certain laboratory experiments or in maintaining a comfortable environment for extended periods.
It's important to note that the U-Tech 0 to 60 minutes Automatic German Timer is designed specifically for use with the SSI-169 humidifier. The timer may have specific connectors or compatibility requirements that allow it to be seamlessly integrated with the humidifier's control system.
For detailed information on the U-Tech 0 to 60 minutes Automatic German Timer and its operation with the 5L Stainless Steel Humidifier SSI-169, it is recommended to consult the product documentation provided by the manufacturer or reach out to them directly. They will provide specific instructions on how to properly connect and utilize the timer with the humidifier.
U-Tech 0.25 HP Motor 1 Kg Jar Aluminium Laboratory Type Ball Mill SSI-165
sku-leadTime Ships within 15 days
U-Tech 0.25 HP Motor Aluminium Jar Laboratory Type Ball Mill SSI-165
By U-Tech
₹33,039 - ₹50,739
The U-Tech 0.25 HP Motor Jar Laboratory Type Ball Mill SSI-165 is a high-quality milling apparatus designed for laboratory use in various scientific and industrial applications. Featuring a 0.25 horsepower motor, this ball mill is capable of efficiently milling a wide range of materials with precision and reliability. This laboratory type ball mill is equipped with a jar, which serves as the milling container, allowing for controlled milling of samples. The jar's design ensures proper containment of materials during the milling process, preventing spillage and ensuring safety. The ball mill's motor provides sufficient power to drive the milling process, enabling the efficient grinding and mixing of materials. Its compact size and laboratory-friendly design make it suitable for use in research settings, educational institutions, and quality control laboratories. Additionally, the U-Tech SSI-165 ball mill is engineered for durability and long-term performance, ensuring consistent results over extended periods of use. Its robust construction and high-quality components contribute to its reliability and longevity. Whether used for grinding, mixing, or homogenizing samples, the U-Tech 0.25 HP Motor Jar Laboratory Type Ball Mill SSI-165 offers versatility and efficiency in laboratory milling operations. Its compact size, powerful motor, and reliable performance make it an essential tool for scientific research, material testing, and quality assurance applications.
green checkType of Product : Laboratory Type Ball Mill
green checkMaterial : Aluminium
green checkModel No : SSI-165
green checkVoltage : 220 V AC
green checkApplication Area : Laboratories
green checkMotor Power (HP) : 0.25 HP
green checkMotor Speed : 80 rpm
U-Tech 0.25 HP Motor 1 Kg Jar Stainless Steel Laboratory Type Ball Mill SSI-165
sku-leadTime Ships within 15 days
U-Tech 0.25 HP Motor Jar Laboratory Type Ball Mill SSI-165
By U-Tech
₹44,839 - ₹56,639
The U-Tech 0.25 HP Motor Jar Laboratory Type Ball Mill SSI-165 is a high-quality milling apparatus designed for laboratory use in various scientific and industrial applications. Featuring a 0.25 horsepower motor, this ball mill is capable of efficiently milling a wide range of materials with precision and reliability. This laboratory type ball mill is equipped with a jar, which serves as the milling container, allowing for controlled milling of samples. The jar's design ensures proper containment of materials during the milling process, preventing spillage and ensuring safety. The ball mill's motor provides sufficient power to drive the milling process, enabling the efficient grinding and mixing of materials. Its compact size and laboratory-friendly design make it suitable for use in research settings, educational institutions, and quality control laboratories. Additionally, the U-Tech SSI-165 ball mill is engineered for durability and long-term performance, ensuring consistent results over extended periods of use. Its robust construction and high-quality components contribute to its reliability and longevity. Whether used for grinding, mixing, or homogenizing samples, the U-Tech 0.25 HP Motor Jar Laboratory Type Ball Mill SSI-165 offers versatility and efficiency in laboratory milling operations. Its compact size, powerful motor, and reliable performance make it an essential tool for scientific research, material testing, and quality assurance applications.
green checkType of Product : Laboratory Type Ball Mill
green checkModel No : SSI-165
green checkVoltage : 220 V AC
green checkApplication Area : Laboratories
green checkMotor Power (HP) : 0.25 HP
green checkMotor Speed : 80 rpm
U-Tech 0 to 60 minutes Automatic German Timer for Laboratory Type Ball Mill SSI-165
sku-leadTime Ships within 15 days
U-Tech 0 to 60 minutes Automatic German Timer for Laboratory Type Ball Mill SSI-165
By U-Tech
₹3,893  
U-Tech 0 to 60 minutes Automatic German Timer for Laboratory Type Ball Mill SSI-165 would serve the purpose of controlling the grinding duration and automating the operation. It allows researchers and technicians to set a specific time interval for the ball mill to operate, ensuring consistent and reproducible grinding results.
The use of a timer with a laboratory ball mill provides several advantages. First, it allows for precise control over the grinding process by ensuring that the mill operates for the desired duration. This is particularly important in experiments or analyses where the grinding time plays a critical role in achieving specific particle size distributions or material characteristics.
Additionally, a timer enables automation of the grinding process, eliminating the need for constant manual monitoring. Researchers can set the desired grinding time and focus on other tasks, maximizing efficiency in the laboratory.
While the U-Tech 0 to 60 minutes Automatic German Timer mentioned in your query may not be an actual product, there are various timers available on the market that can be used with laboratory ball mills. These timers often feature user-friendly interfaces, allowing for easy programming and adjustment of the grinding duration.
When selecting a timer for a laboratory ball mill, it is important to consider compatibility with the specific ball mill model and the necessary electrical connections. Manufacturers of ball mills may provide recommendations or compatible timer options for their products, and consulting the user manual or reaching out to the manufacturer can provide more specific information.
In summary, the use of a timer with a laboratory ball mill allows for precise control and automation of the grinding process. While information about the specific U-Tech timer for the Laboratory Type Ball Mill SSI-165 may not be available, there are various timers on the market that can be utilized to enhance the efficiency and accuracy of laboratory ball milling operations.
U-Tech 40 x 25 mm Mild Steel Chamber Arthur H.Thomas Type Lab Willey Grinder SSI-165
sku-leadTime Ships within 15 days
U-Tech Mild Steel Chamber Arthur H.Thomas Type Lab Willey Grinder SSI-165
By U-Tech
₹56,639 - ₹1,06,199
The U-Tech 65 x 25 mm Mild Steel Chamber Arthur H.Thomas Type Lab Willey Grinder SSI-165 is a laboratory device used for pulverizing and grinding a variety of materials into fine powders. It is named after its inventor, Arthur H. Thomas, and is commonly found in research laboratories, pharmaceutical companies, and academic institutions.
The Willey Grinder consists of a motorized base unit and a grinding chamber. The base unit contains an electric motor that drives the grinding mechanism. The grinding chamber, which is typically made of stainless steel, houses the grinding components and is designed to withstand the forces generated during the grinding process.
The grinding mechanism of the Willey Grinder consists of a series of sharp blades or knives that are mounted on a rotor within the grinding chamber. The rotor rotates at high speeds, causing the blades to impact and cut the material placed in the chamber. This cutting and shearing action reduces the size of the particles and transforms them into fine powders.
The Willey Grinder is highly versatile and can handle a wide range of materials, including plant and animal tissues, seeds, soils, rocks, and chemicals. It is particularly useful for grinding samples that are difficult to grind using other methods, such as fibrous or tough materials. The grinder can be adjusted to control the fineness of the final product by changing the speed of the motor or the clearance between the blades and the chamber.
One key advantage of the Willey Grinder is its ability to process large quantities of material quickly and efficiently. This makes it suitable for applications that require high-throughput grinding, such as sample preparation for analysis, extraction of compounds, or homogenization of mixtures.
To operate the Willey Grinder, the material to be ground is loaded into the grinding chamber, and the lid is securely closed. The motor is then switched on, and the rotation of the rotor causes the blades to grind the material. The ground powder collects at the bottom of the chamber or can be collected using a removable tray.
It is important to note that safety precautions should be followed when using the Willey Grinder. Operators should wear appropriate protective equipment, such as gloves and safety goggles, to prevent injuries. Additionally, care should be taken to ensure that the material being ground is compatible with the grinder's capabilities and that the grinder is properly cleaned and maintained to avoid cross-contamination between samples.
In summary, the Arthur H. Thomas Type Lab Willey Grinder is a powerful and versatile laboratory device used for grinding a wide range of materials into fine powders. Its robust design, high throughput capacity, and adjustable fineness make it a valuable tool for various applications in research and industry.
green checkType of Product : Arthur H.Thomas Type Lab Willey Grinder
green checkModel No : SSI-165
green checkColor : White
green checkApplication Area : Laboratories
green checkChamber Material : Mild Steel
green checkMotor Power (HP) : 0.25 HP
U-Tech 40 x 25 mm Stainless Steel Chamber Arthur H.Thomas Type Lab Willey Grinder SSI-165
sku-leadTime Ships within 15 days
U-Tech Stainless Steel Chamber Arthur H.Thomas Type Lab Willey Grinder SSI-165
By U-Tech
₹48,379 - ₹1,41,599
The U-Tech 65 x 25 mm Stainless Steel Chamber Arthur H.Thomas Type Lab Willey Grinder SSI-165 is a laboratory device used for pulverizing and grinding a variety of materials into fine powders. It is named after its inventor, Arthur H. Thomas, and is commonly found in research laboratories, pharmaceutical companies, and academic institutions.
The Willey Grinder consists of a motorized base unit and a grinding chamber. The base unit contains an electric motor that drives the grinding mechanism. The grinding chamber, which is typically made of stainless steel, houses the grinding components and is designed to withstand the forces generated during the grinding process.
The grinding mechanism of the Willey Grinder consists of a series of sharp blades or knives that are mounted on a rotor within the grinding chamber. The rotor rotates at high speeds, causing the blades to impact and cut the material placed in the chamber. This cutting and shearing action reduces the size of the particles and transforms them into fine powders.
The Willey Grinder is highly versatile and can handle a wide range of materials, including plant and animal tissues, seeds, soils, rocks, and chemicals. It is particularly useful for grinding samples that are difficult to grind using other methods, such as fibrous or tough materials. The grinder can be adjusted to control the fineness of the final product by changing the speed of the motor or the clearance between the blades and the chamber.
One key advantage of the Willey Grinder is its ability to process large quantities of material quickly and efficiently. This makes it suitable for applications that require high-throughput grinding, such as sample preparation for analysis, extraction of compounds, or homogenization of mixtures.
To operate the Willey Grinder, the material to be ground is loaded into the grinding chamber, and the lid is securely closed. The motor is then switched on, and the rotation of the rotor causes the blades to grind the material. The ground powder collects at the bottom of the chamber or can be collected using a removable tray.
It is important to note that safety precautions should be followed when using the Willey Grinder. Operators should wear appropriate protective equipment, such as gloves and safety goggles, to prevent injuries. Additionally, care should be taken to ensure that the material being ground is compatible with the grinder's capabilities and that the grinder is properly cleaned and maintained to avoid cross-contamination between samples.
In summary, the Arthur H. Thomas Type Lab Willey Grinder is a powerful and versatile laboratory device used for grinding a wide range of materials into fine powders. Its robust design, high throughput capacity, and adjustable fineness make it a valuable tool for various applications in research and industry.
green checkType of Product : Arthur H.Thomas Type Lab Willey Grinder
green checkModel No : SSI-165
green checkColor : White
green checkApplication Area : Laboratories
green checkChamber Material : Stainless Steel
green checkMotor Power (HP) : 0.25 HP
U-Tech 0 to 60 minutes Automatic German Timer for Arthur H.Thomas Type Lab Willey Grinder SSI-165
sku-leadTime Ships within 15 days
U-Tech 0 to 60 minutes Automatic German Timer for Arthur H.Thomas Type Lab Willey Grinder SSI-165
By U-Tech
₹3,893  
The U-Tech 0 to 60 minutes Automatic German Timer is a specialized timer designed for use with the Arthur H. Thomas Type Lab Willey Grinder SSI-165. This timer is specifically calibrated to provide precise and accurate timing for the grinding process performed by the Willey Grinder.
The timer features a user-friendly interface with clear markings and controls for easy operation. It has a range of 0 to 60 minutes, allowing users to set the desired grinding duration based on their specific requirements. The timer can be adjusted in one-minute increments, providing flexibility and precision in timing the grinding process.
The Automatic German Timer is an essential accessory for the Willey Grinder as it allows users to control and monitor the duration of the grinding operation. This is important for achieving consistent and reproducible results in sample preparation and analysis. By setting the appropriate grinding time, users can ensure that the material being processed in the Willey Grinder achieves the desired particle size or level of homogeneity.
The timer is designed with reliability and durability in mind, featuring high-quality components and construction. It is manufactured in Germany, known for its precision engineering and adherence to stringent quality standards. This ensures that the timer provides accurate timing over an extended period of use, contributing to the overall reliability and performance of the Willey Grinder.
To use the Automatic German Timer with the Willey Grinder SSI-165, users simply need to connect the timer to the grinder and set the desired grinding duration using the control knobs or buttons. The timer will then count down the set time and automatically stop the grinder once the designated grinding period has elapsed. This feature eliminates the need for constant monitoring of the grinding process and enhances efficiency in the laboratory.
Overall, the U-Tech 0 to 60 minutes Automatic German Timer is an important accessory for the Arthur H. Thomas Type Lab Willey Grinder SSI-165. Its precise timing capabilities and reliable performance contribute to achieving consistent and accurate results in sample grinding and preparation. With its user-friendly interface and German engineering, the timer enhances the overall functionality and convenience of using the Willey Grinder in laboratory settings.
U-Tech 1.5 L Stainless Steel Aerosol Disinfector SSI-168
sku-leadTime Ships within 15 days
U-Tech Stainless Steel Aerosol Disinfector SSI-168
By U-Tech
₹20,059 - ₹29,499
U-Tech 5 L Stainless Steel Aerosol Disinfector SSI-168 is a device designed to disinfect and sanitize indoor spaces by dispersing a fine mist or aerosolized solution of disinfectant into the air. It is commonly used in various settings such as hospitals, offices, schools, and public transportation to control the spread of infectious diseases and maintain a clean environment.
The aerosol disinfector works by converting liquid disinfectants into tiny droplets or particles that can remain suspended in the air for an extended period. These disinfectant particles are then dispersed throughout the targeted area using a nozzle or sprayer. The size of the droplets produced can vary depending on the specific device, but they are typically small enough to remain airborne for a sufficient amount of time to reach and disinfect surfaces, including those that are difficult to access manually.
The disinfectant solution used in aerosol disinfectors is typically a combination of chemicals that have proven efficacy in killing or neutralizing a wide range of microorganisms, including bacteria, viruses, and fungi. Common disinfectants used in these devices include hydrogen peroxide, quaternary ammonium compounds, and hypochlorous acid.
Aerosol disinfectors offer several advantages. First, they can effectively cover large areas and reach spaces that may be challenging to clean using traditional methods. Second, they provide a more consistent and uniform distribution of the disinfectant, ensuring thorough coverage and reducing the risk of missed spots. Third, they can be used on both porous and non-porous surfaces, making them versatile for various environments.
However, it is important to note that the use of aerosol disinfectors should be accompanied by proper safety measures. This includes ensuring the selected disinfectant is suitable for the intended space and following the manufacturer's instructions regarding usage, concentration, and contact time. Additionally, adequate ventilation is crucial to prevent the buildup of potentially harmful chemicals in the air.
In conclusion, aerosol disinfectors are valuable tools in the fight against infectious diseases, offering an efficient and comprehensive method of disinfection. Their ability to disperse a fine mist of disinfectant throughout an area makes them highly effective in reaching and treating surfaces that are difficult to clean by conventional means. However, proper usage and adherence to safety guidelines are essential to maximize their effectiveness while minimizing potential risks.
green checkType of Product : Aerosol Disinfector
green checkMaterial : Stainless Steel
green checkModel No : SSI-168
green checkColor : Silver
green checkVoltage : 220-230 V AC
green checkApplication Area : Laboratories
U-Tech 30x20x12 inch Galvanized Iron Soaking Tank Bottle Washing Machine SSI-164
sku-leadTime Ships within 15 days
U-Tech Galvanized Iron Soaking Tank Bottle Washing Machine SSI-164
By U-Tech
₹62,539 - ₹69,619
U-Tech 30x20x12 inch Galvanized Iron Soaking Tank Bottle Washing Machine SSI-164 is a mechanical device used in various industries to clean and sanitize bottles prior to filling them with liquids or other substances. It is commonly employed in industries such as beverage production, pharmaceuticals, cosmetics, and food processing.
The bottle washing machine operates on the principle of using high-pressure jets of water, cleaning agents, or a combination of both to remove dirt, debris, and contaminants from the bottles' surfaces. The machine is typically equipped with a conveyor system that transports the bottles through a series of cleaning stages.
The cleaning process in a bottle washing machine usually involves multiple steps. First, the bottles are fed onto the conveyor belt and transported through a pre-rinsing stage where they are subjected to a powerful jet of water to remove any loose particles or residues. This helps in preparing the bottles for the subsequent cleaning stages.
Next, the bottles pass through a main washing section where they are subjected to a combination of high-pressure water jets, brushes, and cleaning agents. The water jets and brushes remove stubborn dirt and stains from the bottles, while the cleaning agents help dissolve and remove any organic or chemical residues that may be present.
After the main washing stage, the bottles are usually rinsed with clean water to ensure the removal of any remaining cleaning agents or particles. Some advanced bottle washing machines may also include a sanitization step, where the bottles are exposed to hot water or steam to kill bacteria, fungi, or other microorganisms.
The washed and rinsed bottles then proceed to a drying section, where they are typically subjected to forced air or heated elements to remove excess moisture. This ensures that the bottles are dry and ready for the subsequent filling process.
Bottle washing machines offer several benefits. They provide a highly efficient and automated cleaning process, allowing for a large number of bottles to be cleaned in a short period. The use of high-pressure water jets and cleaning agents ensures thorough and effective cleaning, removing contaminants and ensuring product safety. Additionally, these machines help maintain consistency in the cleaning process, reducing the risk of human error and contamination.
In conclusion, a bottle washing machine is a vital piece of equipment used in various industries to clean and sanitize bottles before filling them with products. By utilizing high-pressure water jets, brushes, and cleaning agents, these machines effectively remove dirt, debris, and contaminants from the bottles' surfaces. Their automated and efficient cleaning process ensures product safety and maintains cleanliness standards in industries that rely on bottle packaging.
green checkType of Product : Bottle Washing Machine
green checkMaterial : Galvanized Iron
green checkModel No : SSI-164
green checkPower Source : Electric Corded
green checkMotor Type : Electrical
green checkApplication Area : Laboratories
green checkBrush Material : Nylon
U-Tech 30x20x12 inch Stainless Steel Soaking Tank Bottle Washing Machine SSI-164
sku-leadTime Ships within 15 days
U-Tech Stainless Steel Soaking Tank Bottle Washing Machine SSI-164
By U-Tech
₹90,859 - ₹1,05,019
U-Tech 30x20x18 inch Stainless Steel Soaking Tank Bottle Washing Machine SSI-164 is a mechanical device used in various industries to clean and sanitize bottles prior to filling them with liquids or other substances. It is commonly employed in industries such as beverage production, pharmaceuticals, cosmetics, and food processing.
The bottle washing machine operates on the principle of using high-pressure jets of water, cleaning agents, or a combination of both to remove dirt, debris, and contaminants from the bottles' surfaces. The machine is typically equipped with a conveyor system that transports the bottles through a series of cleaning stages.
The cleaning process in a bottle washing machine usually involves multiple steps. First, the bottles are fed onto the conveyor belt and transported through a pre-rinsing stage where they are subjected to a powerful jet of water to remove any loose particles or residues. This helps in preparing the bottles for the subsequent cleaning stages.
Next, the bottles pass through a main washing section where they are subjected to a combination of high-pressure water jets, brushes, and cleaning agents. The water jets and brushes remove stubborn dirt and stains from the bottles, while the cleaning agents help dissolve and remove any organic or chemical residues that may be present.
After the main washing stage, the bottles are usually rinsed with clean water to ensure the removal of any remaining cleaning agents or particles. Some advanced bottle washing machines may also include a sanitization step, where the bottles are exposed to hot water or steam to kill bacteria, fungi, or other microorganisms.
The washed and rinsed bottles then proceed to a drying section, where they are typically subjected to forced air or heated elements to remove excess moisture. This ensures that the bottles are dry and ready for the subsequent filling process.
Bottle washing machines offer several benefits. They provide a highly efficient and automated cleaning process, allowing for a large number of bottles to be cleaned in a short period. The use of high-pressure water jets and cleaning agents ensures thorough and effective cleaning, removing contaminants and ensuring product safety. Additionally, these machines help maintain consistency in the cleaning process, reducing the risk of human error and contamination.
In conclusion, a bottle washing machine is a vital piece of equipment used in various industries to clean and sanitize bottles before filling them with products. By utilizing high-pressure water jets, brushes, and cleaning agents, these machines effectively remove dirt, debris, and contaminants from the bottles' surfaces. Their automated and efficient cleaning process ensures product safety and maintains cleanliness standards in industries that rely on bottle packaging.
green checkType of Product : Bottle Washing Machine
green checkMaterial : Stainless Steel
green checkModel No : SSI-164
green checkPower Source : Electric Corded
green checkMotor Type : Electrical
green checkApplication Area : Laboratories
green checkBrush Material : Nylon
U-Tech Revolution Counter for Flocculator Jar Testing Apparatus SSI-152
sku-leadTime Ships within 10 days
U-Tech Revolution Counter for Flocculator Jar Testing Apparatus SSI-152
By U-Tech
₹47,199  
U-Tech Revolution Counter for Flocculator Jar Testing Apparatus SSI-152 is a specialized device used to measure the number of rotations or revolutions per minute (RPM) of a rotating component in laboratory instruments or equipment. It provides precise and accurate information about the rotational speed, allowing researchers and technicians to monitor and control the performance of their lab equipment effectively.
The revolution counter typically consists of a display unit, a sensor, and a mounting mechanism. The display unit is equipped with a digital or analog screen that shows the measured RPM value. The sensor is attached to the rotating component of the lab equipment, such as a motor or a spindle, and detects the rotational movement. It sends signals to the display unit, which then calculates and displays the RPM value.
The revolution counter offers several benefits in a laboratory setting. It allows researchers to ensure that the lab equipment is operating within the desired speed range, ensuring accurate and consistent experimental results. By monitoring the RPM, users can detect any deviations or irregularities in the rotational speed, indicating potential issues or malfunctions in the equipment. This helps in maintaining the quality of experiments and preventing any adverse effects on the samples or processes.
Furthermore, a revolution counter enables researchers to track and record the RPM values over time. This data can be useful for performance analysis, troubleshooting, and maintenance purposes. It assists in identifying any patterns or trends in the rotational speed, which can help in optimizing the operation of the lab equipment and extending its lifespan.
Revolution counters for lab equipment are available in various types and designs to accommodate different applications and equipment configurations. Some revolution counters are integrated into specific lab instruments, while others can be attached externally to equipment through magnetic or mechanical mounting mechanisms. The choice of revolution counter depends on the specific requirements of the lab equipment and the desired level of precision and functionality.
Proper calibration and periodic maintenance of revolution counters are essential to ensure accurate and reliable RPM measurements. Regular calibration helps to maintain the accuracy of the counter, while maintenance activities such as cleaning and inspection ensure proper functioning and longevity of the device.
In summary, a revolution counter for lab equipment is a valuable tool for measuring the RPM of rotating components in laboratory instruments. It provides precise and accurate RPM values, enabling researchers to monitor and control the performance of their lab equipment effectively. Revolution counters help in maintaining experiment accuracy, detecting irregularities, and optimizing equipment operation. Proper calibration and maintenance are necessary to ensure accurate measurements and reliable performance.
U-Tech IF-70 61 Kg SS Ice Flaking Machine with Air Cooled Automatic Control Device SSI-201
sku-leadTime Ships within 15 days
U-Tech SS Ice Flaking Machine with Air Cooled Automatic Control Device SSI-201
By U-Tech
₹4,49,299 - ₹5,13,485
U-Tech IF-70 61 Kg SS Ice Flaking Machine with Air Cooled Automatic Control Device SSI-201 is a specialized piece of equipment used to produce flake ice. Flake ice consists of small, flat, and thin ice flakes that have a high surface area-to-volume ratio. This makes it ideal for a wide range of applications such as food storage, cooling, and processing in industries such as fisheries, food and beverage, healthcare, and chemical.
The ice flaking machine operates by spraying a thin layer of water onto a cold refrigerated drum or evaporator. The drum's surface temperature is typically set below freezing point, causing the water to freeze rapidly upon contact and form a thin layer of ice. As the drum rotates, a scraping mechanism or knife gently removes the ice layer in the form of flakes, which are then collected and stored in an insulated storage bin.
The size and thickness of the ice flakes produced by the machine can be adjusted based on the application requirements. Flake ice typically ranges in thickness from 1.5 to 2.5 mm, allowing it to easily conform to the shape of products or containers it comes into contact with.
The advantages of using an ice flaking machine include its high cooling efficiency, rapid ice production, and versatility. Flake ice has excellent heat transfer properties, which allows for efficient cooling and preservation of perishable products. The rapid ice production rate of the machine ensures a continuous supply of ice, meeting the demands of various industries. Additionally, the versatility of flake ice makes it suitable for a wide range of applications, such as seafood preservation, concrete cooling, medical applications, and food displays.
Ice flaking machines often include features to enhance their performance and user convenience. These may include automatic ice level sensors, adjustable ice thickness controls, water level controls, and self-cleaning functions. Some machines are designed with energy-saving features, such as improved insulation and advanced refrigeration systems, to reduce energy consumption and operating costs.
Proper maintenance and cleaning of the ice flaking machine are crucial to ensure its optimal performance and longevity. Regular cleaning and sanitization of the water system, evaporator, and storage bin help prevent bacterial growth and maintain hygienic ice production. Routine inspection and maintenance of the refrigeration system, electrical components, and moving parts are also important to identify and address any potential issues.
In summary, an ice flaking machine is a specialized equipment used to produce flake ice. It operates by spraying water onto a cold drum, which freezes the water into thin ice layers. The ice layers are then scraped off in the form of flakes. The machine offers advantages such as high cooling efficiency, rapid ice production, and versatility for various applications. Proper maintenance and cleaning are important to ensure the machine's performance and hygiene. Ice flaking machines are widely used in industries requiring ice for cooling, preservation, and processing purposes.
green checkType of Product : Ice Flaking Machine
green checkMaterial : Stainless Steel
green checkTemperature : Water: 10°C
green checkModel No : SSI-201
green checkApplication Area : Laboratories
green checkNoise Level : < 50 dB
green checkRefrigerant Gas : R404a
green checkAmbient Temperature : 10°C
green checkControl Mode : Electromechanical
U-Tech 99% 220 to 230 V AC Electrical Dry Ice Machine SSI-202
sku-leadTime Ships within 15 days
U-Tech 99% 220 to 230 V AC Electrical Dry Ice Machine SSI-202
By U-Tech
₹3,30,399  
U-Tech 99% 220 to 230 V AC Electrical Dry Ice Machine SSI-202 is a specialized piece of equipment used to produce dry ice from liquid carbon dioxide (CO2). Dry ice is the solid form of CO2 and is commonly used in various applications such as food preservation, shipping of temperature-sensitive goods, cleaning, and scientific experiments. The electrical dry ice machine provides a convenient and controlled way to generate dry ice on-site.
The machine consists of several components, including a CO2 storage tank, a pressure regulator, a heating element, and a mold or press. The process begins by transferring liquid CO2 from the storage tank into the machine. The pressure regulator controls the flow of CO2 and reduces its pressure to convert it into a gas. The gas then enters the heating element, which increases its temperature and causes it to sublimate directly into solid dry ice.
The electrical dry ice machine typically has a mold or press that shapes the dry ice into desired forms, such as pellets or blocks. The mold is cooled to extremely low temperatures using liquid nitrogen or other refrigerants to facilitate the rapid solidification of the CO2 gas into dry ice. The formed dry ice is then collected and stored in insulated containers for further use.
The machine is controlled by an electrical control panel that allows the operator to adjust various parameters, such as the flow rate of CO2, the temperature of the heating element, and the size and shape of the dry ice produced. This control enables customization of the dry ice production to meet specific requirements.
The electrical dry ice machine offers several advantages. Firstly, it provides a reliable and continuous supply of dry ice, eliminating the need for purchasing and storing pre-made dry ice. This is particularly beneficial in industries where a steady supply of dry ice is required. Secondly, the machine allows for on-demand production, ensuring freshness and quality of the dry ice. Additionally, the ability to customize the size and shape of the dry ice produced allows for flexibility in different applications.
Proper safety measures should be followed when operating an electrical dry ice machine. This includes wearing appropriate personal protective equipment, such as gloves and goggles, to protect against extreme cold temperatures and potential CO2 exposure. Adequate ventilation is also important to prevent the buildup of CO2 gas in the surrounding area.
In summary, an electrical dry ice machine is a specialized equipment used to produce dry ice from liquid carbon dioxide. It operates by converting liquid CO2 into solid dry ice through controlled heating and pressurization. The machine offers the advantages of on-site and on-demand dry ice production, customization of dry ice size and shape, and a continuous supply. Safety precautions should be followed when operating the machine. Electrical dry ice machines are widely used in various industries for their convenience and reliability in producing dry ice for applications ranging from food preservation to scientific experiments.
U-Tech Stainless Steel Tissue Processing Unit for Laboratories SSI-203
sku-leadTime Ships within 15 days
U-Tech Stainless Steel Tissue Processing Unit for Laboratories SSI-203
By U-Tech
₹1,53,399  
U-Tech Stainless Steel Tissue Processing Unit for Laboratories SSI-203 is a specialized piece of equipment used in histology laboratories to prepare tissue samples for microscopic examination. It is an integral part of the tissue processing workflow, which involves several steps to convert fresh tissue samples into thin, transparent sections that can be mounted on slides and stained for analysis.
The tissue processing unit typically consists of a series of interconnected containers or compartments that facilitate the sequential immersion of tissue samples in a series of chemical solutions. These solutions, known as histological reagents, help to preserve and prepare the tissue for further analysis. The processing unit may also include an integrated heating system to control the temperature of the reagents.
The tissue processing unit follows a standardized protocol for tissue processing, which involves several steps. The fresh tissue samples are first fixed in a solution such as formalin to preserve their structure and prevent decay. They are then dehydrated by gradually replacing water with alcohol or other organic solvents to remove water from the tissues. Next, the samples are cleared by immersing them in a solvent that renders the tissue transparent. Finally, the tissue samples are infiltrated with a molten paraffin wax to provide support and facilitate the sectioning process.
Throughout the tissue processing workflow, the tissue processing unit ensures that the samples are properly immersed in the reagents for the required amount of time. It maintains a controlled environment to optimize the tissue processing conditions, including temperature, agitation, and timing. This helps to ensure consistent and reliable results.
The tissue processing unit also includes mechanisms for fluid exchange between the containers, such as vacuum or pressure cycles, to facilitate the penetration of the reagents into the tissue. This helps to enhance the quality of tissue fixation, dehydration, clearing, and infiltration.
Once the tissue processing is complete, the processed samples are embedded in paraffin blocks, which are then sectioned using a microtome to obtain thin slices. These sections are mounted on slides, stained, and coverslipped for microscopic examination.
The tissue processing unit requires regular maintenance and calibration to ensure its proper functioning. This includes cleaning the containers, replacing the reagents, and verifying the accuracy of temperature controls and fluid exchange mechanisms. Quality control measures, such as monitoring the processing time, temperature, and the integrity of the processed tissues, are also implemented to ensure the reliability of the processed samples.
In summary, a tissue processing unit is a specialized equipment used in histology laboratories to prepare tissue samples for microscopic examination. It follows a standardized protocol involving tissue fixation, dehydration, clearing, and infiltration. The unit ensures proper immersion of tissue samples in histological reagents, maintains controlled processing conditions, and facilitates fluid exchange between containers. Regular maintenance and quality control are important for ensuring the functionality and reliability of the tissue processing unit. This equipment plays a critical role in the production of high-quality tissue sections for histological analysis in medical research, diagnosis, and education.
U-Tech 220 V AC Abel Flash Point Apparatus for Laboratories SSI-401
sku-leadTime Ships within 15 days
U-Tech 220 V AC Abel Flash Point Apparatus for Laboratories SSI-401
By U-Tech
₹30,679  
The U-Tech 220 V AC Abel Flash Point Apparatus for Laboratories SSI-401 is a commonly used instrument for determining the flash point of petroleum products and other flammable liquids. It is widely used in industries such as oil and gas, petrochemicals, and transportation to assess the flammability and safety of various substances.
The Abel flash point apparatus operates based on the principle of the Pensky-Martens closed cup method, which provides a closed environment for the sample being tested. It consists of a metal test cup that is filled with the sample and a lid with an opening through which an ignition source is introduced. The lid is closed tightly to create a sealed chamber.
During the test, the sample is heated gradually using a heating unit attached to the apparatus. The temperature is controlled and monitored using a thermometer inserted into the test cup. At regular intervals, a small flame or spark is introduced through the lid opening. The flash point is determined when a flash or ignition occurs inside the closed cup.
The Abel flash point apparatus adheres to recognized testing standards such as ASTM D3278 and ISO 13736, which provide detailed procedures, apparatus specifications, and safety guidelines. These standards ensure consistent and reliable measurements of the flash point.
The flash point is the lowest temperature at which a substance emits vapors that can ignite momentarily when exposed to an ignition source. It is an important parameter for assessing the flammability and safety of liquids, as it indicates the potential fire hazard associated with the substance.
Accurate flash point measurements are crucial for handling, storage, and transportation of flammable substances. They help determine appropriate safety precautions, including the selection of appropriate storage containers, handling procedures, and fire suppression systems. Flash point data also aids in the classification and labeling of hazardous materials.
Regular calibration and maintenance of the Abel flash point apparatus are essential to ensure accurate and reliable results. Calibration against certified reference materials helps verify the accuracy of the apparatus and identify any deviations. Routine cleaning and inspection are necessary to prevent contamination and ensure optimal performance.
In summary, the Abel flash point apparatus is a widely used instrument for determining the flash point of petroleum products and flammable liquids. It provides critical information for assessing the flammability and safety of substances in various industries. Adhering to recognized standards and employing a closed cup method, this apparatus ensures accurate and reliable flash point measurements. Regular calibration and maintenance are necessary to maintain measurement accuracy and reliability.
U-Tech Electrically Driven Stirrer With FHP Motor for Abel's Flash Point Apparatus SSI-401
sku-leadTime Ships within 15 days
U-Tech Electrically Driven Stirrer With FHP Motor for Abel's Flash Point Apparatus SSI-401
By U-Tech
₹18,879  
U-Tech Electrically Driven Stirrer With FHP Motor for Abel's Flash Point Apparatus SSI-401 is a versatile laboratory equipment accessory designed to provide efficient and reliable stirring capabilities for various lab applications. It is compatible with a wide range of lab equipment that requires sample agitation and mixing.
The stirrer features an FHP motor, which is specifically selected for its compact size, energy efficiency, and adequate power output. The FHP motor delivers the necessary rotational force to drive the stirring mechanism, ensuring effective mixing of samples.
The U-Tech Electrically Driven Stirrer is commonly used with laboratory instruments such as viscometers, flash point apparatus, dissolution testers, and other setups that require homogeneous mixing. It enables consistent and uniform sample mixing, which is crucial for obtaining accurate and reliable results in various scientific and research applications.
The stirrer typically consists of a motor unit and a shaft assembly with an impeller or stir bar. The impeller is immersed in the sample or solution, and when the motor is activated, it rotates at a controlled speed, creating a vortex or gentle agitation. This ensures proper blending and dispersion of the components within the sample, promoting chemical reactions, temperature uniformity, and other desired processes.
The U-Tech Electrically Driven Stirrer offers adjustable speed settings, allowing users to optimize stirring speed based on the sample viscosity, experimental requirements, or specific protocols. The precise control of stirring speed enables customization to different lab protocols, ensuring reproducibility and consistency in mixing results.
The stirrer is constructed with durable materials that are resistant to chemicals and corrosion, making it suitable for use in various laboratory environments. It is designed to be user-friendly, with intuitive controls and easy-to-clean surfaces.
In summary, the U-Tech Electrically Driven Stirrer with FHP Motor is a versatile accessory for lab equipment. It enhances the performance and functionality of various lab instruments by providing efficient and reliable stirring capabilities. With its compact design, energy efficiency, adjustable speed settings, and compatibility with different lab setups, this stirrer is a valuable tool for scientists, researchers, and technicians working in diverse scientific fields.
U-Tech Electrically Driven Stirrer With FHP Motor for Pensky Marten Flash Point Apparatus SSI-402
sku-leadTime Ships within 15 days
U-Tech Electrically Driven Stirrer With FHP Motor for Pensky Marten Flash Point Apparatus SSI-402
By U-Tech
₹20,059  
U-Tech Electrically Driven Stirrer With FHP Motor for Pensky Marten Flash Point Apparatus SSI-402 is a versatile laboratory equipment accessory designed to provide efficient and reliable stirring capabilities for various lab applications. It is compatible with a wide range of lab equipment that requires sample agitation and mixing.
The stirrer features an FHP motor, which is specifically selected for its compact size, energy efficiency, and adequate power output. The FHP motor delivers the necessary rotational force to drive the stirring mechanism, ensuring effective mixing of samples.
The U-Tech Electrically Driven Stirrer is commonly used with laboratory instruments such as viscometers, flash point apparatus, dissolution testers, and other setups that require homogeneous mixing. It enables consistent and uniform sample mixing, which is crucial for obtaining accurate and reliable results in various scientific and research applications.
The stirrer typically consists of a motor unit and a shaft assembly with an impeller or stir bar. The impeller is immersed in the sample or solution, and when the motor is activated, it rotates at a controlled speed, creating a vortex or gentle agitation. This ensures proper blending and dispersion of the components within the sample, promoting chemical reactions, temperature uniformity, and other desired processes.
The U-Tech Electrically Driven Stirrer offers adjustable speed settings, allowing users to optimize stirring speed based on the sample viscosity, experimental requirements, or specific protocols. The precise control of stirring speed enables customization to different lab protocols, ensuring reproducibility and consistency in mixing results.
The stirrer is constructed with durable materials that are resistant to chemicals and corrosion, making it suitable for use in various laboratory environments. It is designed to be user-friendly, with intuitive controls and easy-to-clean surfaces.
In summary, the U-Tech Electrically Driven Stirrer with FHP Motor is a versatile accessory for lab equipment. It enhances the performance and functionality of various lab instruments by providing efficient and reliable stirring capabilities. With its compact design, energy efficiency, adjustable speed settings, and compatibility with different lab setups, this stirrer is a valuable tool for scientists, researchers, and technicians working in diverse scientific fields.
U-Tech Cleaveland Flash and Fire Point Apparatus SSI-403
sku-leadTime Ships within 15 days
U-Tech Cleaveland Flash and Fire Point Apparatus SSI-403
By U-Tech
₹21,239  
The U-Tech Cleaveland Flash and Fire Point Apparatus SSI-403 is a specialized instrument used to determine the flash point and fire point of liquid fuels and other flammable substances. It is an essential tool in industries such as oil and gas, petrochemicals, and transportation, where the knowledge of a substance's flammability characteristics is crucial for safety, handling, and storage purposes.
The flash point of a substance is the lowest temperature at which it produces enough vapor to ignite momentarily when exposed to an open flame or ignition source. The fire point, on the other hand, is the temperature at which the substance sustains combustion for a specific period.
The Cleaveland flash and fire point apparatus typically consists of a metal test cup, a heating unit, a temperature control system, and an ignition mechanism. The test cup is filled with the sample being tested, which is usually heated gradually by an electrically controlled heating unit. A thermometer is inserted into the cup to monitor the temperature.
During the test, the temperature of the sample is increased at a constant rate, and at regular intervals, an ignition source, such as a gas flame or electric spark, is briefly applied above the surface of the sample. The flash point is determined when a momentary flash occurs, indicating the presence of ignitable vapors. The fire point is then determined when sustained combustion is observed.
The Cleaveland flash and fire point apparatus adheres to specific standards and testing methods, such as ASTM D92 and ISO 2592, to ensure accurate and reliable results. These standards provide guidelines for test procedures, apparatus specifications, and safety precautions.
The flash point and fire point of a substance are critical parameters used in assessing its flammability and safety. These values help determine the appropriate handling, storage, and transportation procedures for flammable materials. They also assist in the formulation of safety regulations and guidelines to prevent accidents and mitigate the risk of fire and explosions.
In summary, the Cleaveland flash and fire point apparatus is a specialized instrument used to determine the flash point and fire point of liquid fuels and flammable substances. It provides essential information for assessing the flammability characteristics of materials, ensuring safety in handling, storage, and transportation. Adhering to recognized standards and testing methods, this apparatus plays a vital role in various industries where flammable substances are present.
U-Tech 20 to 2000 seconds Red Wood Number 2 Viscometer SSI-404
sku-leadTime Ships within 15 days
U-Tech 20 to 2000 seconds Red Wood Number 2 Viscometer SSI-404
By U-Tech
₹36,579  
The U-Tech 20 to 2000 seconds Red Wood Number 2 Viscometer SSI-404 is a type of rotational viscometer used to measure the viscosity of fluids, particularly petroleum products. It is commonly employed in industries such as oil and gas, lubricants, and petrochemicals to assess the flow properties and quality of various liquids.
The Red Wood Number 2 viscometer consists of a cylindrical glass or metal container, also known as a cup, and a rotating spindle or bob placed inside the cup. The cup is filled with the fluid to be tested, and the spindle is connected to a motor that causes it to rotate at a constant speed.
During the measurement, the fluid's viscosity is determined by the resistance encountered by the rotating spindle as it moves through the fluid. The torque required to rotate the spindle is measured, and this torque reading is used to calculate the viscosity of the fluid using the Red Wood Number 1 equation.
The Red Wood Number 2 equation relates the torque to the viscosity of the fluid, taking into account the geometry and dimensions of the viscometer cup and spindle. The equation allows for the conversion of torque readings into viscosity values, typically reported in units of Red Wood seconds (RWS).
The viscosity measurement obtained using the Red Wood Number 2 viscometer is crucial in various applications. For instance, in the petroleum industry, it helps determine the viscosity of crude oil, lubricating oils, and other petroleum-based products. This information is vital for quality control, product formulation, and process optimization.
The Red Wood Number 2 viscometer offers several advantages, including simplicity, ease of use, and relatively low cost compared to other types of viscometers. However, it is important to note that it may not be suitable for fluids with extremely high or low viscosities. In such cases, alternative viscometers with different spindle geometries or operating principles may be more appropriate.
In summary, the Red Wood Number 2 viscometer is a rotational viscometer used to measure the viscosity of fluids, particularly petroleum products. It provides valuable information about flow properties and quality control in various industries. Its simplicity and cost-effectiveness make it a popular choice for viscosity measurements, although its range of applicability should be considered for specific fluid types.
U-Tech 2000 seconds Red Wood Number 1 Viscometer for Laboratories SSI-404
sku-leadTime Ships within 15 days
U-Tech 2000 seconds Red Wood Number 1 Viscometer for Laboratories SSI-404
By U-Tech
₹49,559  
The U-Tech 2000 seconds Red Wood Number 1 Viscometer for Laboratories SSI-404 is a type of rotational viscometer used to measure the viscosity of fluids, particularly petroleum products. It is commonly employed in industries such as oil and gas, lubricants, and petrochemicals to assess the flow properties and quality of various liquids.
The Red Wood Number 1 viscometer consists of a cylindrical glass or metal container, also known as a cup, and a rotating spindle or bob placed inside the cup. The cup is filled with the fluid to be tested, and the spindle is connected to a motor that causes it to rotate at a constant speed.
During the measurement, the fluid's viscosity is determined by the resistance encountered by the rotating spindle as it moves through the fluid. The torque required to rotate the spindle is measured, and this torque reading is used to calculate the viscosity of the fluid using the Red Wood Number 1 equation.
The Red Wood Number 1 equation relates the torque to the viscosity of the fluid, taking into account the geometry and dimensions of the viscometer cup and spindle. The equation allows for the conversion of torque readings into viscosity values, typically reported in units of Red Wood seconds (RWS).
The viscosity measurement obtained using the Red Wood Number 1 viscometer is crucial in various applications. For instance, in the petroleum industry, it helps determine the viscosity of crude oil, lubricating oils, and other petroleum-based products. This information is vital for quality control, product formulation, and process optimization.
The Red Wood Number 1 viscometer offers several advantages, including simplicity, ease of use, and relatively low cost compared to other types of viscometers. However, it is important to note that it may not be suitable for fluids with extremely high or low viscosities. In such cases, alternative viscometers with different spindle geometries or operating principles may be more appropriate.
In summary, the Red Wood Number 1 viscometer is a rotational viscometer used to measure the viscosity of fluids, particularly petroleum products. It provides valuable information about flow properties and quality control in various industries. Its simplicity and cost-effectiveness make it a popular choice for viscosity measurements, although its range of applicability should be considered for specific fluid types.
U-Tech Electrically Driven Stirrer With FHP Motor for Red Wood Viscometer SSI-404
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U-Tech Electrically Driven Stirrer With FHP Motor for Red Wood Viscometer SSI-404
By U-Tech
₹20,059  
The U-Tech Electrically Driven Stirrer with FHP (Fractional Horsepower) Motor is a specific type of stirrer designed for use with the Red Wood Viscometer SSI-404. This stirrer is specifically engineered to provide efficient and reliable mixing of the sample in the viscometer during viscosity measurements.
The Red Wood Viscometer is an instrument used to determine the viscosity of liquids, particularly petroleum products. It operates based on the principle of measuring the time taken for a fixed volume of liquid to flow through a capillary tube under specific conditions. Proper mixing of the sample is crucial to obtain accurate and representative viscosity readings.
The U-Tech Electrically Driven Stirrer is equipped with a high-quality FHP motor, which stands for Fractional Horsepower. This type of motor is designed to deliver adequate power and torque for efficient stirring while being compact in size and energy-efficient. The FHP motor used in the U-Tech stirrer is specifically chosen to meet the requirements of the Red Wood Viscometer SSI-404.
The stirrer typically features a shaft and impeller assembly that is immersed in the sample being tested. When the motor is activated, the impeller rotates at a controlled speed, creating a vortex and ensuring thorough mixing of the sample. The stirrer may have adjustable speed settings to accommodate different sample viscosities and mixing requirements.
By incorporating the U-Tech Electrically Driven Stirrer with FHP Motor into the Red Wood Viscometer setup, users can ensure that the sample is consistently and homogeneously mixed before each viscosity measurement. This helps to eliminate any inconsistencies or stratification in the sample, leading to more accurate and reliable viscosity readings.
The U-Tech stirrer is designed to be compatible with the Red Wood Viscometer SSI-404, ensuring proper fit and easy installation. The stirrer unit is typically constructed with durable materials that are resistant to corrosion and chemical exposure, ensuring long-lasting performance in laboratory environments.
In summary, the U-Tech Electrically Driven Stirrer with FHP Motor is a specialized stirring device designed to be used with the Red Wood Viscometer SSI-404. It features a high-quality FHP motor that delivers efficient mixing of the sample, ensuring consistent and representative viscosity measurements. By incorporating this stirrer into the viscometer setup, users can achieve thorough and reliable mixing of the sample, leading to more accurate and precise viscosity readings.
U-Tech 1/10 inch of second Stop Watch for Red Wood Viscometer SSI-404
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U-Tech 1/10 inch of second Stop Watch for Red Wood Viscometer SSI-404
By U-Tech
₹7,905  
The U-Tech 1/10 inch of second Stop Watch is a specific model of stopwatch that is designed for use with the Red Wood Viscometer SSI-404. This stopwatch is equipped with a high-precision timing mechanism that allows for accurate measurement of time intervals down to 1/10th of a second.
The Red Wood Viscometer is an instrument used for measuring the viscosity of liquids, particularly petroleum products. It operates based on the principle of measuring the time taken for a fixed volume of liquid to flow through a capillary tube under specific conditions.
The U-Tech 1/10 inch of second Stop Watch is an essential accessory for the Red Wood Viscometer SSI-404 as it enables precise timing of the flow of the liquid through the capillary tube. The stopwatch provides the user with the ability to start and stop the timing at specific points during the viscosity measurement process.
The stopwatch typically features a clear and easy-to-read display that shows the elapsed time in seconds and fractions of seconds, such as tenths (1/10th) of a second. It may also include additional features such as lap time recording, split time functionality, and a reset function for convenient and accurate timing.
To use the stopwatch with the Red Wood Viscometer SSI-404, the operator would typically start the stopwatch simultaneously with the release of the liquid into the capillary tube. The stopwatch is then stopped once the liquid has flowed a predetermined distance or has reached a specific point, allowing for the determination of the viscosity of the liquid.
The U-Tech 1/10 inch of second Stop Watch is designed to provide precise and reliable timing for viscosity measurements using the Red Wood Viscometer SSI-404. It ensures accurate and repeatable results by allowing operators to measure time intervals with high precision, contributing to the overall performance and effectiveness of the viscosity testing process.
U-Tech Penetrometer Apparatus With Container and Weight Having Penetration Needle SSI-405
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U-Tech Penetrometer Apparatus With Container and Weight Having Penetration Needle SSI-405
By U-Tech
₹37,759  
U-Tech Penetrometer Apparatus With Container and Weight Having Penetration Needle SSI-405 is a specialized instrument used to measure the penetration resistance or hardness of various materials, such as soils, asphalt, food products, and cosmetics. It is widely employed in fields such as geotechnical engineering, construction, agriculture, and quality control.
The penetrometer apparatus typically consists of a penetrometer probe, a loading mechanism, and a measuring device. The penetrometer probe is a cylindrical or conical-shaped metal rod that is driven into the material being tested. The loading mechanism applies a vertical force or weight onto the probe, causing it to penetrate the material. The measuring device provides a reading of the depth of penetration or the force required to achieve a specific penetration depth.
In geotechnical engineering, the penetrometer apparatus is used to assess the soil's consistency, compaction, and load-bearing capacity. It helps determine the soil's shear strength, compaction characteristics, and suitability for construction purposes. By measuring the resistance encountered during penetration, engineers can gather valuable information about soil properties, such as its density, moisture content, and shear strength.
In the field of asphalt testing, the penetrometer apparatus is employed to measure the penetration resistance of asphalt binders. This allows engineers to evaluate the consistency, hardness, and aging properties of the asphalt. The results obtained from the penetrometer test help determine the asphalt's suitability for specific applications and assist in formulating appropriate asphalt mixes.
In food and cosmetics industries, the penetrometer apparatus is utilized to assess the texture and consistency of products. For example, in the food industry, it can be used to measure the firmness of fruits, vegetables, or other food products. In the cosmetics industry, it can determine the hardness or consistency of creams, gels, or other cosmetic formulations.
The data obtained from the penetrometer apparatus is crucial for quality control and product development. It allows manufacturers to ensure consistency in their products and meet specific standards or customer requirements. It also helps researchers and scientists in understanding the behavior and characteristics of materials under different conditions.
In summary, the penetrometer apparatus is a versatile instrument used to measure penetration resistance or hardness in various materials. Its applications span across different industries, including geotechnical engineering, construction, food, cosmetics, and quality control. By providing valuable insights into material properties, the penetrometer apparatus plays a crucial role in assessing and improving the performance and quality of diverse materials and products.
U-Tech Penetrometer Hollow Type Apparatus With Container and Weight SSI-405
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U-Tech Penetrometer Hollow Type Apparatus With Container and Weight SSI-405
By U-Tech
₹40,119  
U-Tech Penetrometer Hollow Type Apparatus With Container and Weight SSI-405 is a specialized instrument used to measure the penetration resistance or hardness of various materials, such as soils, asphalt, food products, and cosmetics. It is widely employed in fields such as geotechnical engineering, construction, agriculture, and quality control.
The penetrometer apparatus typically consists of a penetrometer probe, a loading mechanism, and a measuring device. The penetrometer probe is a cylindrical or conical-shaped metal rod that is driven into the material being tested. The loading mechanism applies a vertical force or weight onto the probe, causing it to penetrate the material. The measuring device provides a reading of the depth of penetration or the force required to achieve a specific penetration depth.
In geotechnical engineering, the penetrometer apparatus is used to assess the soil's consistency, compaction, and load-bearing capacity. It helps determine the soil's shear strength, compaction characteristics, and suitability for construction purposes. By measuring the resistance encountered during penetration, engineers can gather valuable information about soil properties, such as its density, moisture content, and shear strength.
In the field of asphalt testing, the penetrometer apparatus is employed to measure the penetration resistance of asphalt binders. This allows engineers to evaluate the consistency, hardness, and aging properties of the asphalt. The results obtained from the penetrometer test help determine the asphalt's suitability for specific applications and assist in formulating appropriate asphalt mixes.
In food and cosmetics industries, the penetrometer apparatus is utilized to assess the texture and consistency of products. For example, in the food industry, it can be used to measure the firmness of fruits, vegetables, or other food products. In the cosmetics industry, it can determine the hardness or consistency of creams, gels, or other cosmetic formulations.
The data obtained from the penetrometer apparatus is crucial for quality control and product development. It allows manufacturers to ensure consistency in their products and meet specific standards or customer requirements. It also helps researchers and scientists in understanding the behavior and characteristics of materials under different conditions.
In summary, the penetrometer apparatus is a versatile instrument used to measure penetration resistance or hardness in various materials. Its applications span across different industries, including geotechnical engineering, construction, food, cosmetics, and quality control. By providing valuable insights into material properties, the penetrometer apparatus plays a crucial role in assessing and improving the performance and quality of diverse materials and products.
U-Tech Penetrometer Apparatus With Electronic Digital Timer and Electrical Arrangement SSI-405
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U-Tech Penetrometer Apparatus With Electronic Digital Timer and Electrical Arrangement SSI-405
By U-Tech
₹81,419  
U-Tech Penetrometer Apparatus With Electronic Digital Timer and Electrical Arrangement SSI-405 is a specialized instrument used to measure the penetration resistance or hardness of various materials, such as soils, asphalt, food products, and cosmetics. It is widely employed in fields such as geotechnical engineering, construction, agriculture, and quality control.
The penetrometer apparatus typically consists of a penetrometer probe, a loading mechanism, and a measuring device. The penetrometer probe is a cylindrical or conical-shaped metal rod that is driven into the material being tested. The loading mechanism applies a vertical force or weight onto the probe, causing it to penetrate the material. The measuring device provides a reading of the depth of penetration or the force required to achieve a specific penetration depth.
In geotechnical engineering, the penetrometer apparatus is used to assess the soil's consistency, compaction, and load-bearing capacity. It helps determine the soil's shear strength, compaction characteristics, and suitability for construction purposes. By measuring the resistance encountered during penetration, engineers can gather valuable information about soil properties, such as its density, moisture content, and shear strength.
In the field of asphalt testing, the penetrometer apparatus is employed to measure the penetration resistance of asphalt binders. This allows engineers to evaluate the consistency, hardness, and aging properties of the asphalt. The results obtained from the penetrometer test help determine the asphalt's suitability for specific applications and assist in formulating appropriate asphalt mixes.
In food and cosmetics industries, the penetrometer apparatus is utilized to assess the texture and consistency of products. For example, in the food industry, it can be used to measure the firmness of fruits, vegetables, or other food products. In the cosmetics industry, it can determine the hardness or consistency of creams, gels, or other cosmetic formulations.
The data obtained from the penetrometer apparatus is crucial for quality control and product development. It allows manufacturers to ensure consistency in their products and meet specific standards or customer requirements. It also helps researchers and scientists in understanding the behavior and characteristics of materials under different conditions.
In summary, the penetrometer apparatus is a versatile instrument used to measure penetration resistance or hardness in various materials. Its applications span across different industries, including geotechnical engineering, construction, food, cosmetics, and quality control. By providing valuable insights into material properties, the penetrometer apparatus plays a crucial role in assessing and improving the performance and quality of diverse materials and products.
U-Tech 230 V LED Digital Potentiometer for Laboratories SSI-310
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U-Tech 230 V LED Digital Potentiometer for Laboratories SSI-310
By U-Tech
₹34,219  
U-Tech 230 V LED Digital Potentiometer for Laboratories SSI-310 is an electronic component that mimics the behavior of a traditional analog potentiometer but can be controlled digitally. It is widely used in various electronic circuits and systems for applications such as volume control, gain adjustment, and sensor calibration.
The digital potentiometer consists of resistive elements and electronic switches that can be controlled by digital signals. It typically has three terminals: the high terminal (H), the low terminal (L), and the wiper terminal (W). The resistive elements are connected between the H and L terminals, while the wiper terminal provides a variable output voltage or resistance depending on its position along the resistive element.
The digital control mechanism of a digital potentiometer allows for precise and convenient adjustment of its resistance or voltage output. It can be controlled using digital interfaces such as I2C (Inter-Integrated Circuit) or SPI (Serial Peripheral Interface), allowing for easy integration into digital systems and microcontrollers.
Digital potentiometers offer several advantages over their analog counterparts. They provide greater accuracy and repeatability in setting the resistance or voltage due to their precise digital control. They also offer the ability to store and recall specific resistance or voltage values, making them suitable for applications that require preset configurations or calibration.
Digital potentiometers can be either volatile or non-volatile. Volatile digital potentiometers lose their settings when power is removed, while non-volatile types retain their settings even when power is disconnected. Non-volatile digital potentiometers are commonly used in applications where the resistance values need to be preserved across power cycles or system reboots.
The applications of digital potentiometers are diverse. They are used in audio systems for volume control, in instrumentation systems for gain adjustments, in motor control circuits for speed control, and in sensor calibration circuits for fine-tuning measurement ranges. They are also employed in automated test equipment, data acquisition systems, and industrial control systems.
In summary, a digital potentiometer is an electronic component that provides variable resistance or voltage output controlled digitally. It offers precise adjustment, easy integration with digital systems, and the ability to store preset configurations. Digital potentiometers find applications in a wide range of electronic systems for tasks such as volume control, gain adjustment, and sensor calibration. They offer improved accuracy, repeatability, and convenience compared to analog potentiometers.
U-Tech Spare Oil Cup Thermometer for Abel's Flash Point Apparatus SSI-401
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U-Tech Spare Oil Cup Thermometer for Abel's Flash Point Apparatus SSI-401
By U-Tech
₹2,713  
U-Tech Spare Oil Cup Thermometer for Abel's Flash Point Apparatus SSI-401 refers to an additional thermometer kept as a backup or replacement specifically for measuring the temperature of oil in various applications. It is commonly used in industries such as food processing, automotive, and manufacturing, where temperature control and monitoring of oil-based processes are critical for efficient operation and product quality.
The spare oil cup thermometer is designed to withstand the specific conditions encountered when measuring the temperature of oil, including exposure to high temperatures and oil immersion. It is typically constructed with materials that can withstand the corrosive nature of oils and can provide accurate temperature readings.
The thermometer used for measuring oil temperatures can vary depending on the specific application and temperature range required. Common types of thermometers used include bimetallic thermometers, digital thermometers with probes, or infrared thermometers.
Bimetallic thermometers consist of a coiled bimetallic strip that expands or contracts with temperature changes. This movement causes a pointer to rotate, indicating the temperature on a calibrated scale. They are durable, accurate, and well-suited for measuring oil temperatures in various industrial processes.
Digital thermometers with probes offer quick and accurate temperature readings. The probe is inserted directly into the oil to measure its temperature, and the results are displayed digitally. These thermometers often provide additional features such as minimum and maximum temperature memory, alarm functions, and data logging capabilities.
Infrared thermometers, also known as non-contact thermometers, use infrared technology to measure the surface temperature of objects without direct contact. They can be used to measure the temperature of oil by aiming the device at the oil surface. Infrared thermometers provide fast and non-intrusive temperature measurements, making them suitable for applications where contact with the oil is not desired.
Having a spare oil cup thermometer ensures uninterrupted temperature monitoring and accurate measurements in case of a malfunction or damage to the primary thermometer. It allows for quick replacement without disrupting ongoing processes, minimizing downtime and ensuring the continued operation and quality of the product.
Regular calibration and maintenance of both the primary and spare oil cup thermometers are essential to ensure accurate temperature readings. Calibration against certified reference standards helps verify their accuracy and identify any deviations. Proper storage and handling are also important to protect the spare thermometer from damage, contamination, and extreme temperature conditions.
In summary, a spare oil cup thermometer is an additional thermometer kept as a backup or replacement specifically for measuring the temperature of oil in various applications. It ensures uninterrupted temperature monitoring, allows for quick replacement of faulty thermometers, and maintains accurate temperature measurements. Regular calibration, maintenance, and proper storage are crucial to ensure measurement accuracy and reliability in oil-based processes.
U-Tech Spare Thermometer for Cleaveland Flash and Fire Point Apparatus SSI-403
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U-Tech Spare Thermometer for Cleaveland Flash and Fire Point Apparatus SSI-403
By U-Tech
₹2,713  
U-Tech Spare Thermometer for Cleaveland Flash and Fire Point Apparatus SSI-403 refers to an additional thermometer kept on hand as a backup or replacement for measuring temperature in various laboratory instruments and processes. It serves as a contingency measure to ensure uninterrupted temperature monitoring and accurate measurements in the event of a malfunction or failure of the primary thermometer.
In a laboratory setting, temperature measurement is crucial for numerous experiments, reactions, and processes. It is essential to have reliable and accurate temperature readings to maintain optimal conditions, ensure experimental reproducibility, and guarantee the safety of personnel and equipment.
By having a spare thermometer readily available, laboratory technicians and researchers can quickly replace a faulty or damaged thermometer without disrupting ongoing procedures or experiments. This ensures minimal downtime and allows for continuity in data collection and analysis.
A spare thermometer for lab equipment can be used in various instruments such as incubators, ovens, refrigerators, water baths, distillation apparatus, and other temperature-controlled devices. It is typically calibrated and validated to ensure accuracy and traceability to recognized standards.
When selecting a spare thermometer, it is important to consider the specific requirements of the laboratory equipment and the measurement range needed. Different thermometers may have varying measurement ranges, resolutions, and accuracies to suit different applications. For example, a mercury-in-glass thermometer might be suitable for some applications, while a digital thermometer with a probe may be more appropriate for others.
Regular calibration and maintenance of both the primary and spare thermometers are essential to ensure accuracy and reliability. Calibrating the thermometers against traceable standards helps verify their accuracy and identify any potential deviations. It is also important to store the spare thermometer properly, protecting it from damage, contamination, and extreme temperature conditions.
In summary, a spare thermometer for laboratory equipment is an additional thermometer kept on hand as a backup or replacement for measuring temperature in various laboratory instruments and processes. It ensures uninterrupted temperature monitoring, allows for quick replacement of faulty thermometers, and maintains accuracy in temperature measurements. By having a spare thermometer available, laboratories can minimize downtime, ensure experimental reproducibility, and maintain the integrity of their research and processes.
U-Tech Spare Low Range Thermometer for Red Wood Viscometer SSI-404
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U-Tech Spare Low Range Thermometer for Red Wood Viscometer SSI-404
By U-Tech
₹2,713  
U-Tech Spare Low Range Thermometer for Red Wood Viscometer SSI-404 refers to an additional thermometer kept on hand as a backup or replacement for measuring temperature in various laboratory instruments and processes. It serves as a contingency measure to ensure uninterrupted temperature monitoring and accurate measurements in the event of a malfunction or failure of the primary thermometer.
In a laboratory setting, temperature measurement is crucial for numerous experiments, reactions, and processes. It is essential to have reliable and accurate temperature readings to maintain optimal conditions, ensure experimental reproducibility, and guarantee the safety of personnel and equipment.
By having a spare thermometer readily available, laboratory technicians and researchers can quickly replace a faulty or damaged thermometer without disrupting ongoing procedures or experiments. This ensures minimal downtime and allows for continuity in data collection and analysis.
A spare thermometer for lab equipment can be used in various instruments such as incubators, ovens, refrigerators, water baths, distillation apparatus, and other temperature-controlled devices. It is typically calibrated and validated to ensure accuracy and traceability to recognized standards.
When selecting a spare thermometer, it is important to consider the specific requirements of the laboratory equipment and the measurement range needed. Different thermometers may have varying measurement ranges, resolutions, and accuracies to suit different applications. For example, a mercury-in-glass thermometer might be suitable for some applications, while a digital thermometer with a probe may be more appropriate for others.
Regular calibration and maintenance of both the primary and spare thermometers are essential to ensure accuracy and reliability. Calibrating the thermometers against traceable standards helps verify their accuracy and identify any potential deviations. It is also important to store the spare thermometer properly, protecting it from damage, contamination, and extreme temperature conditions.
In summary, a spare thermometer for laboratory equipment is an additional thermometer kept on hand as a backup or replacement for measuring temperature in various laboratory instruments and processes. It ensures uninterrupted temperature monitoring, allows for quick replacement of faulty thermometers, and maintains accuracy in temperature measurements. By having a spare thermometer available, laboratories can minimize downtime, ensure experimental reproducibility, and maintain the integrity of their research and processes.
U-Tech Spare Medium Range Thermometer for Red Wood Viscometer SSI-404
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U-Tech Spare Medium Range Thermometer for Red Wood Viscometer SSI-404
By U-Tech
₹3,185  
U-Tech Spare Medium Range Thermometer for Red Wood Viscometer SSI-404 refers to an additional thermometer kept on hand as a backup or replacement for measuring temperature in various laboratory instruments and processes. It serves as a contingency measure to ensure uninterrupted temperature monitoring and accurate measurements in the event of a malfunction or failure of the primary thermometer.
In a laboratory setting, temperature measurement is crucial for numerous experiments, reactions, and processes. It is essential to have reliable and accurate temperature readings to maintain optimal conditions, ensure experimental reproducibility, and guarantee the safety of personnel and equipment.
By having a spare thermometer readily available, laboratory technicians and researchers can quickly replace a faulty or damaged thermometer without disrupting ongoing procedures or experiments. This ensures minimal downtime and allows for continuity in data collection and analysis.
A spare thermometer for lab equipment can be used in various instruments such as incubators, ovens, refrigerators, water baths, distillation apparatus, and other temperature-controlled devices. It is typically calibrated and validated to ensure accuracy and traceability to recognized standards.
When selecting a spare thermometer, it is important to consider the specific requirements of the laboratory equipment and the measurement range needed. Different thermometers may have varying measurement ranges, resolutions, and accuracies to suit different applications. For example, a mercury-in-glass thermometer might be suitable for some applications, while a digital thermometer with a probe may be more appropriate for others.
Regular calibration and maintenance of both the primary and spare thermometers are essential to ensure accuracy and reliability. Calibrating the thermometers against traceable standards helps verify their accuracy and identify any potential deviations. It is also important to store the spare thermometer properly, protecting it from damage, contamination, and extreme temperature conditions.
In summary, a spare thermometer for laboratory equipment is an additional thermometer kept on hand as a backup or replacement for measuring temperature in various laboratory instruments and processes. It ensures uninterrupted temperature monitoring, allows for quick replacement of faulty thermometers, and maintains accuracy in temperature measurements. By having a spare thermometer available, laboratories can minimize downtime, ensure experimental reproducibility, and maintain the integrity of their research and processes.
U-Tech Spare High Range Thermometer for Red Wood Viscometer SSI-404
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U-Tech Spare High Range Thermometer for Red Wood Viscometer SSI-404
By U-Tech
₹3,185  
U-Tech Spare High Range Thermometer for Red Wood Viscometer SSI-404 refers to an additional thermometer kept on hand as a backup or replacement for measuring temperature in various laboratory instruments and processes. It serves as a contingency measure to ensure uninterrupted temperature monitoring and accurate measurements in the event of a malfunction or failure of the primary thermometer.
In a laboratory setting, temperature measurement is crucial for numerous experiments, reactions, and processes. It is essential to have reliable and accurate temperature readings to maintain optimal conditions, ensure experimental reproducibility, and guarantee the safety of personnel and equipment.
By having a spare thermometer readily available, laboratory technicians and researchers can quickly replace a faulty or damaged thermometer without disrupting ongoing procedures or experiments. This ensures minimal downtime and allows for continuity in data collection and analysis.
A spare thermometer for lab equipment can be used in various instruments such as incubators, ovens, refrigerators, water baths, distillation apparatus, and other temperature-controlled devices. It is typically calibrated and validated to ensure accuracy and traceability to recognized standards.
When selecting a spare thermometer, it is important to consider the specific requirements of the laboratory equipment and the measurement range needed. Different thermometers may have varying measurement ranges, resolutions, and accuracies to suit different applications. For example, a mercury-in-glass thermometer might be suitable for some applications, while a digital thermometer with a probe may be more appropriate for others.
Regular calibration and maintenance of both the primary and spare thermometers are essential to ensure accuracy and reliability. Calibrating the thermometers against traceable standards helps verify their accuracy and identify any potential deviations. It is also important to store the spare thermometer properly, protecting it from damage, contamination, and extreme temperature conditions.
In summary, a spare thermometer for laboratory equipment is an additional thermometer kept on hand as a backup or replacement for measuring temperature in various laboratory instruments and processes. It ensures uninterrupted temperature monitoring, allows for quick replacement of faulty thermometers, and maintains accuracy in temperature measurements. By having a spare thermometer available, laboratories can minimize downtime, ensure experimental reproducibility, and maintain the integrity of their research and processes.
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U-Tech Revolution Counter for Flocculator Jar Testing Apparatus SSI-152 -- ₹47,199 10 days --
This data was last updated on 30/03/2026
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