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Rs-Pro Pneumatic Cylinders

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RS PRO ISO Standard Cylinder - 50mm Bore, 100mm Stroke, Double Acting Model No 1761640

By RS PRO

₹17,699  

RS PRO ISO Standard Cylinder - 50mm Bore, 100mm Stroke, Double Acting Model No 1761640 is a three-dimensional geometric shape characterized by two parallel circular bases of equal size and a curved surface connecting the bases. It is one of the most fundamental and commonly encountered shapes in geometry and real-world applications. The term "cylinder" is also used to refer to objects that have a cylindrical shape or are cylindrical in nature.
Key features and properties of a cylinder include:
Bases: A cylinder has two identical circular bases, which are positioned parallel to each other. The bases are congruent, meaning they have the same size and shape.
Height: The height of a cylinder is the perpendicular distance between the two bases. It is the measurement of the cylinder's vertical axis.
Curved Surface: The curved surface of a cylinder wraps around the sides, connecting the two circular bases. It is formed by an infinite number of rectangles with one side on the circumference of each base and the other side along the height of the cylinder.
Volume: The volume of a cylinder is the amount of space it encloses. It can be calculated using the formula V = πr^2h, where r is the radius of the base, and h is the height.
Surface Area: The total surface area of a cylinder includes the areas of its two circular bases and its curved surface. The formula for surface area is A = 2πr^2 + 2πrh.
Cylinders are widely used in various practical applications, such as:
Containers: Many everyday objects, such as cans, bottles, and cups, have a cylindrical shape. This shape is chosen for its efficiency in storing liquids and other materials.
Pipes and Tubes: Many industrial pipes and tubes are cylindrical in shape, making them efficient for transporting fluids, gases, or other substances.
Engineering and Architecture: Cylindrical structures, such as pillars and columns, are commonly used in engineering and architecture to provide support and stability in buildings and infrastructure.
Rotating Machinery: Cylinders play a significant role in various mechanical systems, including engines and turbines, where pistons move within cylindrical chambers.
The simplicity and versatility of the cylinder make it a fundamental shape in mathematics, engineering, and everyday life. Its applications extend across numerous fields, and its properties are extensively used in calculations and designs in various industries.

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RS PRO Pneumatic Compact Cylinder - 32mm Bore, 25mm Stroke, Double Acting Model No 1761587

By RS PRO

₹9,675  

RS PRO Pneumatic Compact Cylinder - 32mm Bore, 25mm Stroke, Double Acting Model No 1761587 is a mechanical device that converts compressed air energy into linear motion. It is widely used in various industrial applications to create controlled and precise movement in automation systems, machinery, and equipment.
The pneumatic compact cylinder consists of a cylindrical housing with a piston mounted inside it. The piston divides the cylinder into two chambers: the rod side (front side) and the cap side (rear side). Compressed air is supplied through ports connected to the chambers. When air is introduced into one of the chambers, it pushes the piston in the opposite direction, causing the cylinder to extend or retract.
The compact design of these cylinders makes them well-suited for applications where space is limited or weight needs to be minimized. They are available in various sizes and configurations to accommodate different force requirements and stroke lengths.
The main advantages of pneumatic compact cylinders include:
High Speed and Response: Pneumatic systems can achieve fast and precise movements, making compact cylinders suitable for applications requiring rapid response times.
Easy Control: The speed and direction of movement can be easily controlled by adjusting the air pressure supplied to the cylinder.
Cost-Effective: Pneumatic systems are generally more economical than hydraulic or electric systems, making compact cylinders a cost-effective choice for many applications.
Durability: Pneumatic compact cylinders are designed for heavy-duty use and can withstand harsh industrial environments.
Applications of pneumatic compact cylinders include:
Robotics: Compact cylinders are widely used in robotics for precise and controlled movements of robot arms and grippers.
Packaging Machinery: Pneumatic cylinders are employed in packaging machines to control the movement of conveyor belts, packaging arms, and other components.
Material Handling: They are used in material handling equipment, such as lifts and transfer systems, to move goods smoothly and efficiently.
Factory Automation: Pneumatic compact cylinders play a significant role in automating various manufacturing processes, including stamping, clamping, and sorting.
Assembly Lines: They are used in assembly lines to control the movement of components during the manufacturing process.
In summary, pneumatic compact cylinders are essential components in industrial automation and manufacturing, providing reliable and efficient linear motion. Their versatility, easy control, and durability make them a popular choice in a wide range of applications that require controlled and precise movements.

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RS PRO Pneumatic Piston Rod Cylinder-20mm Bore, 200mm Stroke, ISO 6432 Series, Double Acting,3043842

By RS PRO

₹7,905  

RS PRO Pneumatic Piston Rod Cylinder - 20mm Bore, 200mm Stroke, ISO 6432 Series, Double Acting Model No 3043842 is a type of pneumatic actuator used to convert compressed air energy into linear motion. It is one of the most common and straightforward types of pneumatic cylinders used in industrial automation, machinery, and various other applications.
The design of a pneumatic piston rod cylinder consists of a cylindrical tube (the cylinder barrel) with a piston mounted inside it. The piston divides the cylinder into two chambers: the rod side (front side) and the cap side (rear side). Compressed air is supplied through ports connected to these chambers.
When compressed air is introduced into the rod side of the cylinder, it pushes the piston and the piston rod outward, causing the cylinder to extend. This is the working or power stroke of the cylinder. The return stroke is achieved by relying on external forces such as springs or gravity to retract the piston rod when the air pressure is released. In some cases, the piston rod may also be pulled back by an external mechanical linkage or force.
Pneumatic piston rod cylinders are available in various configurations, including single-acting spring return and single-acting gravity return cylinders. The choice of configuration depends on the specific application requirements.
Applications of pneumatic piston rod cylinders include:
Factory Automation: Pneumatic piston rod cylinders are widely used in robotics, material handling systems, and assembly lines for linear motion and positioning of components.
Packaging Machinery: They are employed in packaging machines to control the movement of packaging arms, labeling equipment, and sealing mechanisms.
Material Handling: Pneumatic cylinders are used in lifts, clamps, and grippers for efficient material handling.
Automotive Industry: In automotive manufacturing, pneumatic piston rod cylinders are used for various applications, such as part insertion, assembly, and material transfer.
Construction: Pneumatic cylinders find application in construction equipment for tasks such as lifting, pushing, and positioning heavy loads.
Advantages of pneumatic piston rod cylinders include:
Simplicity: Pneumatic systems are generally simple and easy to control compared to hydraulic or electric systems, reducing complexity and maintenance requirements.
Cost-Effectiveness: Pneumatic systems are often more economical than other types of actuators, making them a popular choice in many industries.
High Speed and Precise Movement: Pneumatic cylinders can achieve rapid and accurate movements, making them suitable for applications requiring fast response times and precise positioning.
In summary, pneumatic piston rod cylinders offer a cost-effective and efficient solution for linear motion in industrial automation and various other applications. Their simplicity, reliability, and ease of control make them a widely used actuator in diverse industries where controlled linear motion is essential.

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RS PRO Pneumatic Piston Rod Cylinder-20mm Bore, 125mm Stroke, ISO 6432 Series, Double Acting,3043864

By RS PRO

₹7,433  

RS PRO Pneumatic Piston Rod Cylinder - 20mm Bore, 125mm Stroke, ISO 6432 Series, Double Acting Model No 3043864 is a type of pneumatic actuator used to convert compressed air energy into linear motion. It is one of the most common and straightforward types of pneumatic cylinders used in industrial automation, machinery, and various other applications.
The design of a pneumatic piston rod cylinder consists of a cylindrical tube (the cylinder barrel) with a piston mounted inside it. The piston divides the cylinder into two chambers: the rod side (front side) and the cap side (rear side). Compressed air is supplied through ports connected to these chambers.
When compressed air is introduced into the rod side of the cylinder, it pushes the piston and the piston rod outward, causing the cylinder to extend. This is the working or power stroke of the cylinder. The return stroke is achieved by relying on external forces such as springs or gravity to retract the piston rod when the air pressure is released. In some cases, the piston rod may also be pulled back by an external mechanical linkage or force.
Pneumatic piston rod cylinders are available in various configurations, including single-acting spring return and single-acting gravity return cylinders. The choice of configuration depends on the specific application requirements.
Applications of pneumatic piston rod cylinders include:
Factory Automation: Pneumatic piston rod cylinders are widely used in robotics, material handling systems, and assembly lines for linear motion and positioning of components.
Packaging Machinery: They are employed in packaging machines to control the movement of packaging arms, labeling equipment, and sealing mechanisms.
Material Handling: Pneumatic cylinders are used in lifts, clamps, and grippers for efficient material handling.
Automotive Industry: In automotive manufacturing, pneumatic piston rod cylinders are used for various applications, such as part insertion, assembly, and material transfer.
Construction: Pneumatic cylinders find application in construction equipment for tasks such as lifting, pushing, and positioning heavy loads.
Advantages of pneumatic piston rod cylinders include:
Simplicity: Pneumatic systems are generally simple and easy to control compared to hydraulic or electric systems, reducing complexity and maintenance requirements.
Cost-Effectiveness: Pneumatic systems are often more economical than other types of actuators, making them a popular choice in many industries.
High Speed and Precise Movement: Pneumatic cylinders can achieve rapid and accurate movements, making them suitable for applications requiring fast response times and precise positioning.
In summary, pneumatic piston rod cylinders offer a cost-effective and efficient solution for linear motion in industrial automation and various other applications. Their simplicity, reliability, and ease of control make them a widely used actuator in diverse industries where controlled linear motion is essential.

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RS PRO Pneumatic Piston Rod Cylinder-16mm Bore, 200mm Stroke, ISO 6432 Series, Double Acting,3043820

By RS PRO

₹7,315  

RS PRO Pneumatic Piston Rod Cylinder - 16mm Bore, 200mm Stroke, ISO 6432 Series, Double Acting Model No 3043820 is a type of pneumatic actuator used to convert compressed air energy into linear motion. It is one of the most common and straightforward types of pneumatic cylinders used in industrial automation, machinery, and various other applications.
The design of a pneumatic piston rod cylinder consists of a cylindrical tube (the cylinder barrel) with a piston mounted inside it. The piston divides the cylinder into two chambers: the rod side (front side) and the cap side (rear side). Compressed air is supplied through ports connected to these chambers.
When compressed air is introduced into the rod side of the cylinder, it pushes the piston and the piston rod outward, causing the cylinder to extend. This is the working or power stroke of the cylinder. The return stroke is achieved by relying on external forces such as springs or gravity to retract the piston rod when the air pressure is released. In some cases, the piston rod may also be pulled back by an external mechanical linkage or force.
Pneumatic piston rod cylinders are available in various configurations, including single-acting spring return and single-acting gravity return cylinders. The choice of configuration depends on the specific application requirements.
Applications of pneumatic piston rod cylinders include:
Factory Automation: Pneumatic piston rod cylinders are widely used in robotics, material handling systems, and assembly lines for linear motion and positioning of components.
Packaging Machinery: They are employed in packaging machines to control the movement of packaging arms, labeling equipment, and sealing mechanisms.
Material Handling: Pneumatic cylinders are used in lifts, clamps, and grippers for efficient material handling.
Automotive Industry: In automotive manufacturing, pneumatic piston rod cylinders are used for various applications, such as part insertion, assembly, and material transfer.
Construction: Pneumatic cylinders find application in construction equipment for tasks such as lifting, pushing, and positioning heavy loads.
Advantages of pneumatic piston rod cylinders include:
Simplicity: Pneumatic systems are generally simple and easy to control compared to hydraulic or electric systems, reducing complexity and maintenance requirements.
Cost-Effectiveness: Pneumatic systems are often more economical than other types of actuators, making them a popular choice in many industries.
High Speed and Precise Movement: Pneumatic cylinders can achieve rapid and accurate movements, making them suitable for applications requiring fast response times and precise positioning.
In summary, pneumatic piston rod cylinders offer a cost-effective and efficient solution for linear motion in industrial automation and various other applications. Their simplicity, reliability, and ease of control make them a widely used actuator in diverse industries where controlled linear motion is essential.

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RS PRO Pneumatic Guided Cylinder - 20mm Bore, 50mm Stroke, SGM Series, Double Acting,2351259

By RS PRO

₹16,519  

RS PRO Pneumatic Guided Cylinder - 20mm Bore, 50mm Stroke, SGM Series, Double Acting Model No 2351259 is a specialized type of pneumatic actuator used for linear motion in industrial automation and other applications. It shares similarities with traditional pneumatic cylinders but incorporates additional guidance mechanisms to provide stable and precise movement along a defined path.
The design of a pneumatic guided cylinder typically includes a cylindrical tube, similar to a regular pneumatic cylinder, but with a built-in guide system. This guide system can consist of various components, such as linear bearings, slides, or rails, which ensure that the piston and rod move smoothly and accurately without lateral deviation.
The primary advantage of a guided cylinder is that it eliminates the need for an external guide mechanism, such as a separate linear slide or guide rod. This compact design makes it well-suited for applications with limited space or those requiring longer strokes.
Pneumatic guided cylinders come in different configurations:
Internal Guide Rods: Some guided cylinders have internal guide rods integrated into the piston, allowing for precise linear movement without the need for external guides.
External Guide Rails: Other guided cylinders utilize external guide rails or slides attached to the cylinder body, guiding the movement of the piston and eliminating rod deflection.
Magnetic Guidance: Certain guided cylinders use magnets to provide lateral guidance, ensuring smooth motion and precise alignment.
Applications of pneumatic guided cylinders include:
Factory Automation: Pneumatic guided cylinders are commonly used in robotics, material handling systems, and assembly lines for precise and controlled linear motion.
Packaging Machinery: They find application in packaging machines for controlled movement of packaging arms, labeling mechanisms, and sealing equipment.
Conveyor Systems: Guided cylinders are employed in conveyor systems to control the movement of products along the conveyor line.
Sheet Metal Handling: In sheet metal processing, guided cylinders are used to control the movement of metal sheets during cutting, bending, and stamping processes.
Automotive Industry: Pneumatic guided cylinders are utilized in automotive manufacturing for various applications, such as welding and material handling.
In summary, a pneumatic guided cylinder offers stable and accurate linear motion through the integration of guiding mechanisms within the cylinder itself. This design makes it an efficient and compact solution for applications where precise and controlled movement is required. Whether in industrial automation, packaging, or material handling, guided cylinders contribute to increased productivity and improved performance in various industries.

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RS PRO Double Acting Cylinder - 80 mm Bore, 200 mm Stroke, FVBC Series, Double Acting,2351152

By RS PRO

₹30,679  

The RS PRO Double Acting Cylinder - 80 mm Bore, 200 mm Stroke, FVBC Series, Double Acting Model No 2351152, Double Acting Cylinder is a vital component in pneumatic and hydraulic systems, designed to convert fluid pressure into linear motion. This versatile actuator is capable of exerting force in both directions, making it suitable for a wide range of applications in industries such as manufacturing, construction, automotive, and aerospace. The primary feature of the Double Acting Cylinder is its ability to produce work in both extending and retracting strokes. It consists of a cylindrical barrel, a piston, and two ports for fluid inlet and outlet. When pressurized fluid, either air (in pneumatic systems) or hydraulic oil (in hydraulic systems), enters one port, it pushes the piston to extend the rod. Similarly, when fluid enters the other port, it pushes the piston in the opposite direction, causing the rod to retract. Double Acting Cylinders come in various sizes and designs to accommodate different loads, stroke lengths, and operating pressures. This versatility allows them to be used in a wide range of applications, from light-duty tasks to heavy industrial processes. The construction of Double Acting Cylinders typically involves robust materials such as steel, aluminum, or stainless steel. These materials provide strength and durability, ensuring the cylinders can withstand the forces and pressures they encounter during operation. One of the key advantages of Double Acting Cylinders is their ability to provide precise and controlled motion. By regulating the fluid pressure and flow, operators can achieve accurate positioning and control the speed of the cylinder's movement. Double Acting Cylinders are used in various industrial processes, such as lifting and lowering heavy loads, moving machinery components, and operating doors and gates. In the automotive industry, they are employed in braking systems and suspension components. In the aerospace sector, they are crucial for actuating control surfaces and landing gears. Moreover, Double Acting Cylinders find applications in automation, robotics, and material handling systems, where they play a critical role in achieving smooth and controlled motion. In conclusion, the Double Acting Cylinder serves as a versatile and reliable actuator in pneumatic and hydraulic systems, providing bidirectional force and precise motion control. Its robust construction, diverse applications, and ability to exert force in both directions make it an essential component in various industries and machinery. Embrace the power and efficiency of the Double Acting Cylinder, and experience enhanced motion control and performance in your pneumatic and hydraulic systems.

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RS PRO Double Acting Cylinder - 40 mm Bore, 100 mm Stroke, FVBC Series, Double Acting,2351151

By RS PRO

₹12,979  

The RS PRO Double Acting Cylinder - 40 mm Bore, 100 mm Stroke, FVBC Series, Double Acting Model No 2351151, Double Acting Cylinder is a vital component in pneumatic and hydraulic systems, designed to convert fluid pressure into linear motion. This versatile actuator is capable of exerting force in both directions, making it suitable for a wide range of applications in industries such as manufacturing, construction, automotive, and aerospace. The primary feature of the Double Acting Cylinder is its ability to produce work in both extending and retracting strokes. It consists of a cylindrical barrel, a piston, and two ports for fluid inlet and outlet. When pressurized fluid, either air (in pneumatic systems) or hydraulic oil (in hydraulic systems), enters one port, it pushes the piston to extend the rod. Similarly, when fluid enters the other port, it pushes the piston in the opposite direction, causing the rod to retract. Double Acting Cylinders come in various sizes and designs to accommodate different loads, stroke lengths, and operating pressures. This versatility allows them to be used in a wide range of applications, from light-duty tasks to heavy industrial processes. The construction of Double Acting Cylinders typically involves robust materials such as steel, aluminum, or stainless steel. These materials provide strength and durability, ensuring the cylinders can withstand the forces and pressures they encounter during operation. One of the key advantages of Double Acting Cylinders is their ability to provide precise and controlled motion. By regulating the fluid pressure and flow, operators can achieve accurate positioning and control the speed of the cylinder's movement. Double Acting Cylinders are used in various industrial processes, such as lifting and lowering heavy loads, moving machinery components, and operating doors and gates. In the automotive industry, they are employed in braking systems and suspension components. In the aerospace sector, they are crucial for actuating control surfaces and landing gears. Moreover, Double Acting Cylinders find applications in automation, robotics, and material handling systems, where they play a critical role in achieving smooth and controlled motion. In conclusion, the Double Acting Cylinder serves as a versatile and reliable actuator in pneumatic and hydraulic systems, providing bidirectional force and precise motion control. Its robust construction, diverse applications, and ability to exert force in both directions make it an essential component in various industries and machinery. Embrace the power and efficiency of the Double Acting Cylinder, and experience enhanced motion control and performance in your pneumatic and hydraulic systems.

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RS PRO Double Acting Cylinder - 32 mm Bore, 50 mm Stroke, FVBC Series, Double Acting,2351150

By RS PRO

₹8,495  

The RS PRO Double Acting Cylinder - 32 mm Bore, 50 mm Stroke, FVBC Series, Double Acting Model No 2351150, Double Acting Cylinder is a vital component in pneumatic and hydraulic systems, designed to convert fluid pressure into linear motion. This versatile actuator is capable of exerting force in both directions, making it suitable for a wide range of applications in industries such as manufacturing, construction, automotive, and aerospace. The primary feature of the Double Acting Cylinder is its ability to produce work in both extending and retracting strokes. It consists of a cylindrical barrel, a piston, and two ports for fluid inlet and outlet. When pressurized fluid, either air (in pneumatic systems) or hydraulic oil (in hydraulic systems), enters one port, it pushes the piston to extend the rod. Similarly, when fluid enters the other port, it pushes the piston in the opposite direction, causing the rod to retract. Double Acting Cylinders come in various sizes and designs to accommodate different loads, stroke lengths, and operating pressures. This versatility allows them to be used in a wide range of applications, from light-duty tasks to heavy industrial processes. The construction of Double Acting Cylinders typically involves robust materials such as steel, aluminum, or stainless steel. These materials provide strength and durability, ensuring the cylinders can withstand the forces and pressures they encounter during operation. One of the key advantages of Double Acting Cylinders is their ability to provide precise and controlled motion. By regulating the fluid pressure and flow, operators can achieve accurate positioning and control the speed of the cylinder's movement. Double Acting Cylinders are used in various industrial processes, such as lifting and lowering heavy loads, moving machinery components, and operating doors and gates. In the automotive industry, they are employed in braking systems and suspension components. In the aerospace sector, they are crucial for actuating control surfaces and landing gears. Moreover, Double Acting Cylinders find applications in automation, robotics, and material handling systems, where they play a critical role in achieving smooth and controlled motion. In conclusion, the Double Acting Cylinder serves as a versatile and reliable actuator in pneumatic and hydraulic systems, providing bidirectional force and precise motion control. Its robust construction, diverse applications, and ability to exert force in both directions make it an essential component in various industries and machinery. Embrace the power and efficiency of the Double Acting Cylinder, and experience enhanced motion control and performance in your pneumatic and hydraulic systems.

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RS PRO Double Acting Cylinder - 32 mm Bore, 150 mm Stroke, FVBC Series, Double Acting,2351149

By RS PRO

₹10,501  

The RS PRO Double Acting Cylinder - 32 mm Bore, 150 mm Stroke, FVBC Series, Double Acting Model No 2351149, Double Acting Cylinder is a vital component in pneumatic and hydraulic systems, designed to convert fluid pressure into linear motion. This versatile actuator is capable of exerting force in both directions, making it suitable for a wide range of applications in industries such as manufacturing, construction, automotive, and aerospace. The primary feature of the Double Acting Cylinder is its ability to produce work in both extending and retracting strokes. It consists of a cylindrical barrel, a piston, and two ports for fluid inlet and outlet. When pressurized fluid, either air (in pneumatic systems) or hydraulic oil (in hydraulic systems), enters one port, it pushes the piston to extend the rod. Similarly, when fluid enters the other port, it pushes the piston in the opposite direction, causing the rod to retract. Double Acting Cylinders come in various sizes and designs to accommodate different loads, stroke lengths, and operating pressures. This versatility allows them to be used in a wide range of applications, from light-duty tasks to heavy industrial processes. The construction of Double Acting Cylinders typically involves robust materials such as steel, aluminum, or stainless steel. These materials provide strength and durability, ensuring the cylinders can withstand the forces and pressures they encounter during operation. One of the key advantages of Double Acting Cylinders is their ability to provide precise and controlled motion. By regulating the fluid pressure and flow, operators can achieve accurate positioning and control the speed of the cylinder's movement. Double Acting Cylinders are used in various industrial processes, such as lifting and lowering heavy loads, moving machinery components, and operating doors and gates. In the automotive industry, they are employed in braking systems and suspension components. In the aerospace sector, they are crucial for actuating control surfaces and landing gears. Moreover, Double Acting Cylinders find applications in automation, robotics, and material handling systems, where they play a critical role in achieving smooth and controlled motion. In conclusion, the Double Acting Cylinder serves as a versatile and reliable actuator in pneumatic and hydraulic systems, providing bidirectional force and precise motion control. Its robust construction, diverse applications, and ability to exert force in both directions make it an essential component in various industries and machinery. Embrace the power and efficiency of the Double Acting Cylinder, and experience enhanced motion control and performance in your pneumatic and hydraulic systems.

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RS PRO Double Acting Cylinder - 32 mm Bore, 100 mm Stroke, FVBC Series, Double Acting,2351148

By RS PRO

₹9,203  

The RS PRO Double Acting Cylinder - 32 mm Bore, 100 mm Stroke, FVBC Series, Double Acting Model No 2351148, Double Acting Cylinder is a vital component in pneumatic and hydraulic systems, designed to convert fluid pressure into linear motion. This versatile actuator is capable of exerting force in both directions, making it suitable for a wide range of applications in industries such as manufacturing, construction, automotive, and aerospace. The primary feature of the Double Acting Cylinder is its ability to produce work in both extending and retracting strokes. It consists of a cylindrical barrel, a piston, and two ports for fluid inlet and outlet. When pressurized fluid, either air (in pneumatic systems) or hydraulic oil (in hydraulic systems), enters one port, it pushes the piston to extend the rod. Similarly, when fluid enters the other port, it pushes the piston in the opposite direction, causing the rod to retract. Double Acting Cylinders come in various sizes and designs to accommodate different loads, stroke lengths, and operating pressures. This versatility allows them to be used in a wide range of applications, from light-duty tasks to heavy industrial processes. The construction of Double Acting Cylinders typically involves robust materials such as steel, aluminum, or stainless steel. These materials provide strength and durability, ensuring the cylinders can withstand the forces and pressures they encounter during operation. One of the key advantages of Double Acting Cylinders is their ability to provide precise and controlled motion. By regulating the fluid pressure and flow, operators can achieve accurate positioning and control the speed of the cylinder's movement. Double Acting Cylinders are used in various industrial processes, such as lifting and lowering heavy loads, moving machinery components, and operating doors and gates. In the automotive industry, they are employed in braking systems and suspension components. In the aerospace sector, they are crucial for actuating control surfaces and landing gears. Moreover, Double Acting Cylinders find applications in automation, robotics, and material handling systems, where they play a critical role in achieving smooth and controlled motion. In conclusion, the Double Acting Cylinder serves as a versatile and reliable actuator in pneumatic and hydraulic systems, providing bidirectional force and precise motion control. Its robust construction, diverse applications, and ability to exert force in both directions make it an essential component in various industries and machinery. Embrace the power and efficiency of the Double Acting Cylinder, and experience enhanced motion control and performance in your pneumatic and hydraulic systems.

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RS PRO Double Acting Cylinder - 25 mm Bore, 50 mm Stroke, IA Series, Double Acting Model No 2351171

By RS PRO

₹8,023  

The RS PRO Double Acting Cylinder - 25 mm Bore, 50 mm Stroke, IA Series, Double Acting Model No 2351171, Double Acting Cylinder is a vital component in pneumatic and hydraulic systems, designed to convert fluid pressure into linear motion. This versatile actuator is capable of exerting force in both directions, making it suitable for a wide range of applications in industries such as manufacturing, construction, automotive, and aerospace. The primary feature of the Double Acting Cylinder is its ability to produce work in both extending and retracting strokes. It consists of a cylindrical barrel, a piston, and two ports for fluid inlet and outlet. When pressurized fluid, either air (in pneumatic systems) or hydraulic oil (in hydraulic systems), enters one port, it pushes the piston to extend the rod. Similarly, when fluid enters the other port, it pushes the piston in the opposite direction, causing the rod to retract. Double Acting Cylinders come in various sizes and designs to accommodate different loads, stroke lengths, and operating pressures. This versatility allows them to be used in a wide range of applications, from light-duty tasks to heavy industrial processes. The construction of Double Acting Cylinders typically involves robust materials such as steel, aluminum, or stainless steel. These materials provide strength and durability, ensuring the cylinders can withstand the forces and pressures they encounter during operation. One of the key advantages of Double Acting Cylinders is their ability to provide precise and controlled motion. By regulating the fluid pressure and flow, operators can achieve accurate positioning and control the speed of the cylinder's movement. Double Acting Cylinders are used in various industrial processes, such as lifting and lowering heavy loads, moving machinery components, and operating doors and gates. In the automotive industry, they are employed in braking systems and suspension components. In the aerospace sector, they are crucial for actuating control surfaces and landing gears. Moreover, Double Acting Cylinders find applications in automation, robotics, and material handling systems, where they play a critical role in achieving smooth and controlled motion. In conclusion, the Double Acting Cylinder serves as a versatile and reliable actuator in pneumatic and hydraulic systems, providing bidirectional force and precise motion control. Its robust construction, diverse applications, and ability to exert force in both directions make it an essential component in various industries and machinery. Embrace the power and efficiency of the Double Acting Cylinder, and experience enhanced motion control and performance in your pneumatic and hydraulic systems.

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RS PRO Double Acting Cylinder - 25 mm Bore, 125 mm Stroke, IAC Series, Double Acting,2351180

By RS PRO

₹7,315  

The RS PRO Double Acting Cylinder - 25 mm Bore, 125 mm Stroke, IAC Series, Double Acting Model No 2351180, Double Acting Cylinder is a vital component in pneumatic and hydraulic systems, designed to convert fluid pressure into linear motion. This versatile actuator is capable of exerting force in both directions, making it suitable for a wide range of applications in industries such as manufacturing, construction, automotive, and aerospace. The primary feature of the Double Acting Cylinder is its ability to produce work in both extending and retracting strokes. It consists of a cylindrical barrel, a piston, and two ports for fluid inlet and outlet. When pressurized fluid, either air (in pneumatic systems) or hydraulic oil (in hydraulic systems), enters one port, it pushes the piston to extend the rod. Similarly, when fluid enters the other port, it pushes the piston in the opposite direction, causing the rod to retract. Double Acting Cylinders come in various sizes and designs to accommodate different loads, stroke lengths, and operating pressures. This versatility allows them to be used in a wide range of applications, from light-duty tasks to heavy industrial processes. The construction of Double Acting Cylinders typically involves robust materials such as steel, aluminum, or stainless steel. These materials provide strength and durability, ensuring the cylinders can withstand the forces and pressures they encounter during operation. One of the key advantages of Double Acting Cylinders is their ability to provide precise and controlled motion. By regulating the fluid pressure and flow, operators can achieve accurate positioning and control the speed of the cylinder's movement. Double Acting Cylinders are used in various industrial processes, such as lifting and lowering heavy loads, moving machinery components, and operating doors and gates. In the automotive industry, they are employed in braking systems and suspension components. In the aerospace sector, they are crucial for actuating control surfaces and landing gears. Moreover, Double Acting Cylinders find applications in automation, robotics, and material handling systems, where they play a critical role in achieving smooth and controlled motion. In conclusion, the Double Acting Cylinder serves as a versatile and reliable actuator in pneumatic and hydraulic systems, providing bidirectional force and precise motion control. Its robust construction, diverse applications, and ability to exert force in both directions make it an essential component in various industries and machinery. Embrace the power and efficiency of the Double Acting Cylinder, and experience enhanced motion control and performance in your pneumatic and hydraulic systems.

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RS PRO Double Acting Cylinder - 10 mm Bore, 25 mm Stroke, IA Series, Double Acting Model No 2351168

By RS PRO

₹3,185  

The RS PRO Double Acting Cylinder - 10 mm Bore, 25 mm Stroke, IA Series, Double Acting Model No 2351168, Double Acting Cylinder is a vital component in pneumatic and hydraulic systems, designed to convert fluid pressure into linear motion. This versatile actuator is capable of exerting force in both directions, making it suitable for a wide range of applications in industries such as manufacturing, construction, automotive, and aerospace. The primary feature of the Double Acting Cylinder is its ability to produce work in both extending and retracting strokes. It consists of a cylindrical barrel, a piston, and two ports for fluid inlet and outlet. When pressurized fluid, either air (in pneumatic systems) or hydraulic oil (in hydraulic systems), enters one port, it pushes the piston to extend the rod. Similarly, when fluid enters the other port, it pushes the piston in the opposite direction, causing the rod to retract. Double Acting Cylinders come in various sizes and designs to accommodate different loads, stroke lengths, and operating pressures. This versatility allows them to be used in a wide range of applications, from light-duty tasks to heavy industrial processes. The construction of Double Acting Cylinders typically involves robust materials such as steel, aluminum, or stainless steel. These materials provide strength and durability, ensuring the cylinders can withstand the forces and pressures they encounter during operation. One of the key advantages of Double Acting Cylinders is their ability to provide precise and controlled motion. By regulating the fluid pressure and flow, operators can achieve accurate positioning and control the speed of the cylinder's movement. Double Acting Cylinders are used in various industrial processes, such as lifting and lowering heavy loads, moving machinery components, and operating doors and gates. In the automotive industry, they are employed in braking systems and suspension components. In the aerospace sector, they are crucial for actuating control surfaces and landing gears. Moreover, Double Acting Cylinders find applications in automation, robotics, and material handling systems, where they play a critical role in achieving smooth and controlled motion. In conclusion, the Double Acting Cylinder serves as a versatile and reliable actuator in pneumatic and hydraulic systems, providing bidirectional force and precise motion control. Its robust construction, diverse applications, and ability to exert force in both directions make it an essential component in various industries and machinery. Embrace the power and efficiency of the Double Acting Cylinder, and experience enhanced motion control and performance in your pneumatic and hydraulic systems.

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RS PRO Roundline Cylinder - 25mm Bore, 100mm Stroke, Double Acting Model No 1761630

By RS PRO

₹7,315  

RS PRO Roundline Cylinder - 25mm Bore, 100mm Stroke, Double Acting Model No 1761630 is a type of mechanical actuator used to create linear motion from compressed air energy. It is one of the most common and widely used actuators in industrial automation, manufacturing, and various other applications that require controlled and precise linear movement.
The design of a roundline cylinder typically consists of a cylindrical tube (the cylinder barrel) with a piston mounted inside it. The piston divides the cylinder into two chambers: the rod side (front side) and the cap side (rear side). Compressed air is supplied through ports connected to these chambers.
Roundline cylinders are classified based on their mode of operation:
Single-Acting Cylinders: In single-acting cylinders, compressed air is supplied to only one chamber (usually the rod side) to move the piston in one direction. The return stroke is achieved by using an external force, such as a spring or a weight, to retract the piston when the air pressure is released.
Double-Acting Cylinders: In double-acting cylinders, compressed air is alternately supplied to each chamber to move the piston back and forth. This allows the cylinder to provide bi-directional motion, extending and retracting the piston as needed.
Roundline cylinders are available in various sizes, stroke lengths, and force capacities to accommodate different application requirements. They can also be equipped with various mounting options, such as flange, trunnion, or clevis mounts, to suit specific installation needs.
Applications of roundline cylinders include:
Factory Automation: Roundline cylinders are extensively used in robotics, material handling systems, and assembly lines for controlled linear motion and positioning of components.
Packaging Machinery: They find application in packaging machines for controlled movement of conveyor belts, packaging arms, and sealing equipment.
Material Handling: Roundline cylinders are used in lifts, clamps, and grippers for efficient material handling and positioning.
Automotive Industry: In automotive manufacturing, roundline cylinders are used for various applications, such as part insertion, assembly, and material transfer.
Construction: Roundline cylinders are employed in construction equipment for tasks such as lifting, pushing, and positioning heavy loads.
Advantages of roundline cylinders include:
Fast and Precise Movement: Roundline cylinders can achieve high-speed and accurate movements, making them suitable for applications requiring rapid response times and precise positioning.
Reliability: Pneumatic systems, including roundline cylinders, are generally reliable and durable, with minimal maintenance requirements.
Cost-Effectiveness: Pneumatic systems are often more economical than hydraulic or electric systems, making roundline cylinders a popular choice in many industries.
In summary, roundline cylinders are essential components in industrial automation and various applications that require controlled linear motion. Their versatility, reliability, and ease of control make them a widely used actuator in diverse industries, contributing to increased productivity and improved process automation.

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RS PRO ISO Standard Cylinder - 80mm Bore, 125mm Stroke, Double Acting Model No 1761669

By RS PRO

₹29,499  

RS PRO ISO Standard Cylinder - 80mm Bore, 125mm Stroke, Double Acting Model No 1761669 is a three-dimensional geometric shape characterized by two parallel circular bases of equal size and a curved surface connecting the bases. It is one of the most fundamental and commonly encountered shapes in geometry and real-world applications. The term "cylinder" is also used to refer to objects that have a cylindrical shape or are cylindrical in nature.
Key features and properties of a cylinder include:
Bases: A cylinder has two identical circular bases, which are positioned parallel to each other. The bases are congruent, meaning they have the same size and shape.
Height: The height of a cylinder is the perpendicular distance between the two bases. It is the measurement of the cylinder's vertical axis.
Curved Surface: The curved surface of a cylinder wraps around the sides, connecting the two circular bases. It is formed by an infinite number of rectangles with one side on the circumference of each base and the other side along the height of the cylinder.
Volume: The volume of a cylinder is the amount of space it encloses. It can be calculated using the formula V = πr^2h, where r is the radius of the base, and h is the height.
Surface Area: The total surface area of a cylinder includes the areas of its two circular bases and its curved surface. The formula for surface area is A = 2πr^2 + 2πrh.
Cylinders are widely used in various practical applications, such as:
Containers: Many everyday objects, such as cans, bottles, and cups, have a cylindrical shape. This shape is chosen for its efficiency in storing liquids and other materials.
Pipes and Tubes: Many industrial pipes and tubes are cylindrical in shape, making them efficient for transporting fluids, gases, or other substances.
Engineering and Architecture: Cylindrical structures, such as pillars and columns, are commonly used in engineering and architecture to provide support and stability in buildings and infrastructure.
Rotating Machinery: Cylinders play a significant role in various mechanical systems, including engines and turbines, where pistons move within cylindrical chambers.
The simplicity and versatility of the cylinder make it a fundamental shape in mathematics, engineering, and everyday life. Its applications extend across numerous fields, and its properties are extensively used in calculations and designs in various industries.

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RS PRO ISO Standard Cylinder - 80mm Bore, 100mm Stroke, Double Acting Model No 1761670

By RS PRO

₹28,319  

RS PRO ISO Standard Cylinder - 80mm Bore, 100mm Stroke, Double Acting Model No 1761670 is a three-dimensional geometric shape characterized by two parallel circular bases of equal size and a curved surface connecting the bases. It is one of the most fundamental and commonly encountered shapes in geometry and real-world applications. The term "cylinder" is also used to refer to objects that have a cylindrical shape or are cylindrical in nature.
Key features and properties of a cylinder include:
Bases: A cylinder has two identical circular bases, which are positioned parallel to each other. The bases are congruent, meaning they have the same size and shape.
Height: The height of a cylinder is the perpendicular distance between the two bases. It is the measurement of the cylinder's vertical axis.
Curved Surface: The curved surface of a cylinder wraps around the sides, connecting the two circular bases. It is formed by an infinite number of rectangles with one side on the circumference of each base and the other side along the height of the cylinder.
Volume: The volume of a cylinder is the amount of space it encloses. It can be calculated using the formula V = πr^2h, where r is the radius of the base, and h is the height.
Surface Area: The total surface area of a cylinder includes the areas of its two circular bases and its curved surface. The formula for surface area is A = 2πr^2 + 2πrh.
Cylinders are widely used in various practical applications, such as:
Containers: Many everyday objects, such as cans, bottles, and cups, have a cylindrical shape. This shape is chosen for its efficiency in storing liquids and other materials.
Pipes and Tubes: Many industrial pipes and tubes are cylindrical in shape, making them efficient for transporting fluids, gases, or other substances.
Engineering and Architecture: Cylindrical structures, such as pillars and columns, are commonly used in engineering and architecture to provide support and stability in buildings and infrastructure.
Rotating Machinery: Cylinders play a significant role in various mechanical systems, including engines and turbines, where pistons move within cylindrical chambers.
The simplicity and versatility of the cylinder make it a fundamental shape in mathematics, engineering, and everyday life. Its applications extend across numerous fields, and its properties are extensively used in calculations and designs in various industries.

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RS PRO ISO Standard Cylinder - 63mm Bore, 80mm Stroke, Double Acting Model No 1761642

By RS PRO

₹18,879  

RS PRO ISO Standard Cylinder - 63mm Bore, 80mm Stroke, Double Acting Model No 1761642 is a three-dimensional geometric shape characterized by two parallel circular bases of equal size and a curved surface connecting the bases. It is one of the most fundamental and commonly encountered shapes in geometry and real-world applications. The term "cylinder" is also used to refer to objects that have a cylindrical shape or are cylindrical in nature.
Key features and properties of a cylinder include:
Bases: A cylinder has two identical circular bases, which are positioned parallel to each other. The bases are congruent, meaning they have the same size and shape.
Height: The height of a cylinder is the perpendicular distance between the two bases. It is the measurement of the cylinder's vertical axis.
Curved Surface: The curved surface of a cylinder wraps around the sides, connecting the two circular bases. It is formed by an infinite number of rectangles with one side on the circumference of each base and the other side along the height of the cylinder.
Volume: The volume of a cylinder is the amount of space it encloses. It can be calculated using the formula V = πr^2h, where r is the radius of the base, and h is the height.
Surface Area: The total surface area of a cylinder includes the areas of its two circular bases and its curved surface. The formula for surface area is A = 2πr^2 + 2πrh.
Cylinders are widely used in various practical applications, such as:
Containers: Many everyday objects, such as cans, bottles, and cups, have a cylindrical shape. This shape is chosen for its efficiency in storing liquids and other materials.
Pipes and Tubes: Many industrial pipes and tubes are cylindrical in shape, making them efficient for transporting fluids, gases, or other substances.
Engineering and Architecture: Cylindrical structures, such as pillars and columns, are commonly used in engineering and architecture to provide support and stability in buildings and infrastructure.
Rotating Machinery: Cylinders play a significant role in various mechanical systems, including engines and turbines, where pistons move within cylindrical chambers.
The simplicity and versatility of the cylinder make it a fundamental shape in mathematics, engineering, and everyday life. Its applications extend across numerous fields, and its properties are extensively used in calculations and designs in various industries.

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RS PRO ISO Standard Cylinder - 63mm Bore, 50mm Stroke, Double Acting Model No 1761643

By RS PRO

₹18,879  

RS PRO ISO Standard Cylinder - 63mm Bore, 50mm Stroke, Double Acting Model No 1761643 is a three-dimensional geometric shape characterized by two parallel circular bases of equal size and a curved surface connecting the bases. It is one of the most fundamental and commonly encountered shapes in geometry and real-world applications. The term "cylinder" is also used to refer to objects that have a cylindrical shape or are cylindrical in nature.
Key features and properties of a cylinder include:
Bases: A cylinder has two identical circular bases, which are positioned parallel to each other. The bases are congruent, meaning they have the same size and shape.
Height: The height of a cylinder is the perpendicular distance between the two bases. It is the measurement of the cylinder's vertical axis.
Curved Surface: The curved surface of a cylinder wraps around the sides, connecting the two circular bases. It is formed by an infinite number of rectangles with one side on the circumference of each base and the other side along the height of the cylinder.
Volume: The volume of a cylinder is the amount of space it encloses. It can be calculated using the formula V = πr^2h, where r is the radius of the base, and h is the height.
Surface Area: The total surface area of a cylinder includes the areas of its two circular bases and its curved surface. The formula for surface area is A = 2πr^2 + 2πrh.
Cylinders are widely used in various practical applications, such as:
Containers: Many everyday objects, such as cans, bottles, and cups, have a cylindrical shape. This shape is chosen for its efficiency in storing liquids and other materials.
Pipes and Tubes: Many industrial pipes and tubes are cylindrical in shape, making them efficient for transporting fluids, gases, or other substances.
Engineering and Architecture: Cylindrical structures, such as pillars and columns, are commonly used in engineering and architecture to provide support and stability in buildings and infrastructure.
Rotating Machinery: Cylinders play a significant role in various mechanical systems, including engines and turbines, where pistons move within cylindrical chambers.
The simplicity and versatility of the cylinder make it a fundamental shape in mathematics, engineering, and everyday life. Its applications extend across numerous fields, and its properties are extensively used in calculations and designs in various industries.

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RS PRO ISO Standard Cylinder - 63mm Bore, 25mm Stroke, Double Acting Model No 1761644

By RS PRO

₹18,879  

RS PRO ISO Standard Cylinder - 63mm Bore, 25mm Stroke, Double Acting Model No 1761644 is a three-dimensional geometric shape characterized by two parallel circular bases of equal size and a curved surface connecting the bases. It is one of the most fundamental and commonly encountered shapes in geometry and real-world applications. The term "cylinder" is also used to refer to objects that have a cylindrical shape or are cylindrical in nature.
Key features and properties of a cylinder include:
Bases: A cylinder has two identical circular bases, which are positioned parallel to each other. The bases are congruent, meaning they have the same size and shape.
Height: The height of a cylinder is the perpendicular distance between the two bases. It is the measurement of the cylinder's vertical axis.
Curved Surface: The curved surface of a cylinder wraps around the sides, connecting the two circular bases. It is formed by an infinite number of rectangles with one side on the circumference of each base and the other side along the height of the cylinder.
Volume: The volume of a cylinder is the amount of space it encloses. It can be calculated using the formula V = πr^2h, where r is the radius of the base, and h is the height.
Surface Area: The total surface area of a cylinder includes the areas of its two circular bases and its curved surface. The formula for surface area is A = 2πr^2 + 2πrh.
Cylinders are widely used in various practical applications, such as:
Containers: Many everyday objects, such as cans, bottles, and cups, have a cylindrical shape. This shape is chosen for its efficiency in storing liquids and other materials.
Pipes and Tubes: Many industrial pipes and tubes are cylindrical in shape, making them efficient for transporting fluids, gases, or other substances.
Engineering and Architecture: Cylindrical structures, such as pillars and columns, are commonly used in engineering and architecture to provide support and stability in buildings and infrastructure.
Rotating Machinery: Cylinders play a significant role in various mechanical systems, including engines and turbines, where pistons move within cylindrical chambers.
The simplicity and versatility of the cylinder make it a fundamental shape in mathematics, engineering, and everyday life. Its applications extend across numerous fields, and its properties are extensively used in calculations and designs in various industries.

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RS PRO ISO Standard Cylinder - 63mm Bore, 200mm Stroke, Double Acting Model No 1761649

By RS PRO

₹24,779  

RS PRO ISO Standard Cylinder - 63mm Bore, 200mm Stroke, Double Acting Model No 1761649 is a three-dimensional geometric shape characterized by two parallel circular bases of equal size and a curved surface connecting the bases. It is one of the most fundamental and commonly encountered shapes in geometry and real-world applications. The term "cylinder" is also used to refer to objects that have a cylindrical shape or are cylindrical in nature.
Key features and properties of a cylinder include:
Bases: A cylinder has two identical circular bases, which are positioned parallel to each other. The bases are congruent, meaning they have the same size and shape.
Height: The height of a cylinder is the perpendicular distance between the two bases. It is the measurement of the cylinder's vertical axis.
Curved Surface: The curved surface of a cylinder wraps around the sides, connecting the two circular bases. It is formed by an infinite number of rectangles with one side on the circumference of each base and the other side along the height of the cylinder.
Volume: The volume of a cylinder is the amount of space it encloses. It can be calculated using the formula V = πr^2h, where r is the radius of the base, and h is the height.
Surface Area: The total surface area of a cylinder includes the areas of its two circular bases and its curved surface. The formula for surface area is A = 2πr^2 + 2πrh.
Cylinders are widely used in various practical applications, such as:
Containers: Many everyday objects, such as cans, bottles, and cups, have a cylindrical shape. This shape is chosen for its efficiency in storing liquids and other materials.
Pipes and Tubes: Many industrial pipes and tubes are cylindrical in shape, making them efficient for transporting fluids, gases, or other substances.
Engineering and Architecture: Cylindrical structures, such as pillars and columns, are commonly used in engineering and architecture to provide support and stability in buildings and infrastructure.
Rotating Machinery: Cylinders play a significant role in various mechanical systems, including engines and turbines, where pistons move within cylindrical chambers.
The simplicity and versatility of the cylinder make it a fundamental shape in mathematics, engineering, and everyday life. Its applications extend across numerous fields, and its properties are extensively used in calculations and designs in various industries.

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RS PRO ISO Standard Cylinder - 63mm Bore, 160mm Stroke, Double Acting Model No 1761668

By RS PRO

₹23,599  

RS PRO ISO Standard Cylinder - 63mm Bore, 160mm Stroke, Double Acting Model No 1761668 is a three-dimensional geometric shape characterized by two parallel circular bases of equal size and a curved surface connecting the bases. It is one of the most fundamental and commonly encountered shapes in geometry and real-world applications. The term "cylinder" is also used to refer to objects that have a cylindrical shape or are cylindrical in nature.
Key features and properties of a cylinder include:
Bases: A cylinder has two identical circular bases, which are positioned parallel to each other. The bases are congruent, meaning they have the same size and shape.
Height: The height of a cylinder is the perpendicular distance between the two bases. It is the measurement of the cylinder's vertical axis.
Curved Surface: The curved surface of a cylinder wraps around the sides, connecting the two circular bases. It is formed by an infinite number of rectangles with one side on the circumference of each base and the other side along the height of the cylinder.
Volume: The volume of a cylinder is the amount of space it encloses. It can be calculated using the formula V = πr^2h, where r is the radius of the base, and h is the height.
Surface Area: The total surface area of a cylinder includes the areas of its two circular bases and its curved surface. The formula for surface area is A = 2πr^2 + 2πrh.
Cylinders are widely used in various practical applications, such as:
Containers: Many everyday objects, such as cans, bottles, and cups, have a cylindrical shape. This shape is chosen for its efficiency in storing liquids and other materials.
Pipes and Tubes: Many industrial pipes and tubes are cylindrical in shape, making them efficient for transporting fluids, gases, or other substances.
Engineering and Architecture: Cylindrical structures, such as pillars and columns, are commonly used in engineering and architecture to provide support and stability in buildings and infrastructure.
Rotating Machinery: Cylinders play a significant role in various mechanical systems, including engines and turbines, where pistons move within cylindrical chambers.
The simplicity and versatility of the cylinder make it a fundamental shape in mathematics, engineering, and everyday life. Its applications extend across numerous fields, and its properties are extensively used in calculations and designs in various industries.

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RS PRO ISO Standard Cylinder - 63mm Bore, 125mm Stroke, Double Acting Model No 1761666

By RS PRO

₹22,419  

RS PRO ISO Standard Cylinder - 63mm Bore, 125mm Stroke, Double Acting Model No 1761666 is a three-dimensional geometric shape characterized by two parallel circular bases of equal size and a curved surface connecting the bases. It is one of the most fundamental and commonly encountered shapes in geometry and real-world applications. The term "cylinder" is also used to refer to objects that have a cylindrical shape or are cylindrical in nature.
Key features and properties of a cylinder include:
Bases: A cylinder has two identical circular bases, which are positioned parallel to each other. The bases are congruent, meaning they have the same size and shape.
Height: The height of a cylinder is the perpendicular distance between the two bases. It is the measurement of the cylinder's vertical axis.
Curved Surface: The curved surface of a cylinder wraps around the sides, connecting the two circular bases. It is formed by an infinite number of rectangles with one side on the circumference of each base and the other side along the height of the cylinder.
Volume: The volume of a cylinder is the amount of space it encloses. It can be calculated using the formula V = πr^2h, where r is the radius of the base, and h is the height.
Surface Area: The total surface area of a cylinder includes the areas of its two circular bases and its curved surface. The formula for surface area is A = 2πr^2 + 2πrh.
Cylinders are widely used in various practical applications, such as:
Containers: Many everyday objects, such as cans, bottles, and cups, have a cylindrical shape. This shape is chosen for its efficiency in storing liquids and other materials.
Pipes and Tubes: Many industrial pipes and tubes are cylindrical in shape, making them efficient for transporting fluids, gases, or other substances.
Engineering and Architecture: Cylindrical structures, such as pillars and columns, are commonly used in engineering and architecture to provide support and stability in buildings and infrastructure.
Rotating Machinery: Cylinders play a significant role in various mechanical systems, including engines and turbines, where pistons move within cylindrical chambers.
The simplicity and versatility of the cylinder make it a fundamental shape in mathematics, engineering, and everyday life. Its applications extend across numerous fields, and its properties are extensively used in calculations and designs in various industries.

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RS PRO ISO Standard Cylinder - 63mm Bore, 100mm Stroke, Double Acting Model No 1761641

By RS PRO

₹22,419  

RS PRO ISO Standard Cylinder - 63mm Bore, 100mm Stroke, Double Acting Model No 1761641 is a three-dimensional geometric shape characterized by two parallel circular bases of equal size and a curved surface connecting the bases. It is one of the most fundamental and commonly encountered shapes in geometry and real-world applications. The term "cylinder" is also used to refer to objects that have a cylindrical shape or are cylindrical in nature.
Key features and properties of a cylinder include:
Bases: A cylinder has two identical circular bases, which are positioned parallel to each other. The bases are congruent, meaning they have the same size and shape.
Height: The height of a cylinder is the perpendicular distance between the two bases. It is the measurement of the cylinder's vertical axis.
Curved Surface: The curved surface of a cylinder wraps around the sides, connecting the two circular bases. It is formed by an infinite number of rectangles with one side on the circumference of each base and the other side along the height of the cylinder.
Volume: The volume of a cylinder is the amount of space it encloses. It can be calculated using the formula V = πr^2h, where r is the radius of the base, and h is the height.
Surface Area: The total surface area of a cylinder includes the areas of its two circular bases and its curved surface. The formula for surface area is A = 2πr^2 + 2πrh.
Cylinders are widely used in various practical applications, such as:
Containers: Many everyday objects, such as cans, bottles, and cups, have a cylindrical shape. This shape is chosen for its efficiency in storing liquids and other materials.
Pipes and Tubes: Many industrial pipes and tubes are cylindrical in shape, making them efficient for transporting fluids, gases, or other substances.
Engineering and Architecture: Cylindrical structures, such as pillars and columns, are commonly used in engineering and architecture to provide support and stability in buildings and infrastructure.
Rotating Machinery: Cylinders play a significant role in various mechanical systems, including engines and turbines, where pistons move within cylindrical chambers.
The simplicity and versatility of the cylinder make it a fundamental shape in mathematics, engineering, and everyday life. Its applications extend across numerous fields, and its properties are extensively used in calculations and designs in various industries.

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RS PRO ISO Standard Cylinder - 50mm Bore, 80mm Stroke, Double Acting Model No 1761650

By RS PRO

₹16,519  

RS PRO ISO Standard Cylinder - 50mm Bore, 80mm Stroke, Double Acting Model No 1761650 is a three-dimensional geometric shape characterized by two parallel circular bases of equal size and a curved surface connecting the bases. It is one of the most fundamental and commonly encountered shapes in geometry and real-world applications. The term "cylinder" is also used to refer to objects that have a cylindrical shape or are cylindrical in nature.
Key features and properties of a cylinder include:
Bases: A cylinder has two identical circular bases, which are positioned parallel to each other. The bases are congruent, meaning they have the same size and shape.
Height: The height of a cylinder is the perpendicular distance between the two bases. It is the measurement of the cylinder's vertical axis.
Curved Surface: The curved surface of a cylinder wraps around the sides, connecting the two circular bases. It is formed by an infinite number of rectangles with one side on the circumference of each base and the other side along the height of the cylinder.
Volume: The volume of a cylinder is the amount of space it encloses. It can be calculated using the formula V = πr^2h, where r is the radius of the base, and h is the height.
Surface Area: The total surface area of a cylinder includes the areas of its two circular bases and its curved surface. The formula for surface area is A = 2πr^2 + 2πrh.
Cylinders are widely used in various practical applications, such as:
Containers: Many everyday objects, such as cans, bottles, and cups, have a cylindrical shape. This shape is chosen for its efficiency in storing liquids and other materials.
Pipes and Tubes: Many industrial pipes and tubes are cylindrical in shape, making them efficient for transporting fluids, gases, or other substances.
Engineering and Architecture: Cylindrical structures, such as pillars and columns, are commonly used in engineering and architecture to provide support and stability in buildings and infrastructure.
Rotating Machinery: Cylinders play a significant role in various mechanical systems, including engines and turbines, where pistons move within cylindrical chambers.
The simplicity and versatility of the cylinder make it a fundamental shape in mathematics, engineering, and everyday life. Its applications extend across numerous fields, and its properties are extensively used in calculations and designs in various industries.

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RS PRO ISO Standard Cylinder - 50mm Bore, 50mm Stroke, Double Acting Model No 1761651

By RS PRO

₹16,519  

RS PRO ISO Standard Cylinder - 50mm Bore, 50mm Stroke, Double Acting Model No 1761651 is a three-dimensional geometric shape characterized by two parallel circular bases of equal size and a curved surface connecting the bases. It is one of the most fundamental and commonly encountered shapes in geometry and real-world applications. The term "cylinder" is also used to refer to objects that have a cylindrical shape or are cylindrical in nature.
Key features and properties of a cylinder include:
Bases: A cylinder has two identical circular bases, which are positioned parallel to each other. The bases are congruent, meaning they have the same size and shape.
Height: The height of a cylinder is the perpendicular distance between the two bases. It is the measurement of the cylinder's vertical axis.
Curved Surface: The curved surface of a cylinder wraps around the sides, connecting the two circular bases. It is formed by an infinite number of rectangles with one side on the circumference of each base and the other side along the height of the cylinder.
Volume: The volume of a cylinder is the amount of space it encloses. It can be calculated using the formula V = πr^2h, where r is the radius of the base, and h is the height.
Surface Area: The total surface area of a cylinder includes the areas of its two circular bases and its curved surface. The formula for surface area is A = 2πr^2 + 2πrh.
Cylinders are widely used in various practical applications, such as:
Containers: Many everyday objects, such as cans, bottles, and cups, have a cylindrical shape. This shape is chosen for its efficiency in storing liquids and other materials.
Pipes and Tubes: Many industrial pipes and tubes are cylindrical in shape, making them efficient for transporting fluids, gases, or other substances.
Engineering and Architecture: Cylindrical structures, such as pillars and columns, are commonly used in engineering and architecture to provide support and stability in buildings and infrastructure.
Rotating Machinery: Cylinders play a significant role in various mechanical systems, including engines and turbines, where pistons move within cylindrical chambers.
The simplicity and versatility of the cylinder make it a fundamental shape in mathematics, engineering, and everyday life. Its applications extend across numerous fields, and its properties are extensively used in calculations and designs in various industries.

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RS PRO ISO Standard Cylinder - 50mm Bore, 25mm Stroke, Double Acting Model No 1761652

By RS PRO

₹15,339  

RS PRO ISO Standard Cylinder - 50mm Bore, 25mm Stroke, Double Acting Model No 1761652 is a three-dimensional geometric shape characterized by two parallel circular bases of equal size and a curved surface connecting the bases. It is one of the most fundamental and commonly encountered shapes in geometry and real-world applications. The term "cylinder" is also used to refer to objects that have a cylindrical shape or are cylindrical in nature.
Key features and properties of a cylinder include:
Bases: A cylinder has two identical circular bases, which are positioned parallel to each other. The bases are congruent, meaning they have the same size and shape.
Height: The height of a cylinder is the perpendicular distance between the two bases. It is the measurement of the cylinder's vertical axis.
Curved Surface: The curved surface of a cylinder wraps around the sides, connecting the two circular bases. It is formed by an infinite number of rectangles with one side on the circumference of each base and the other side along the height of the cylinder.
Volume: The volume of a cylinder is the amount of space it encloses. It can be calculated using the formula V = πr^2h, where r is the radius of the base, and h is the height.
Surface Area: The total surface area of a cylinder includes the areas of its two circular bases and its curved surface. The formula for surface area is A = 2πr^2 + 2πrh.
Cylinders are widely used in various practical applications, such as:
Containers: Many everyday objects, such as cans, bottles, and cups, have a cylindrical shape. This shape is chosen for its efficiency in storing liquids and other materials.
Pipes and Tubes: Many industrial pipes and tubes are cylindrical in shape, making them efficient for transporting fluids, gases, or other substances.
Engineering and Architecture: Cylindrical structures, such as pillars and columns, are commonly used in engineering and architecture to provide support and stability in buildings and infrastructure.
Rotating Machinery: Cylinders play a significant role in various mechanical systems, including engines and turbines, where pistons move within cylindrical chambers.
The simplicity and versatility of the cylinder make it a fundamental shape in mathematics, engineering, and everyday life. Its applications extend across numerous fields, and its properties are extensively used in calculations and designs in various industries.

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RS PRO ISO Standard Cylinder - 50mm Bore, 200mm Stroke, Double Acting Model No 1761646

By RS PRO

₹20,059  

RS PRO ISO Standard Cylinder - 50mm Bore, 200mm Stroke, Double Acting Model No 1761646 is a three-dimensional geometric shape characterized by two parallel circular bases of equal size and a curved surface connecting the bases. It is one of the most fundamental and commonly encountered shapes in geometry and real-world applications. The term "cylinder" is also used to refer to objects that have a cylindrical shape or are cylindrical in nature.
Key features and properties of a cylinder include:
Bases: A cylinder has two identical circular bases, which are positioned parallel to each other. The bases are congruent, meaning they have the same size and shape.
Height: The height of a cylinder is the perpendicular distance between the two bases. It is the measurement of the cylinder's vertical axis.
Curved Surface: The curved surface of a cylinder wraps around the sides, connecting the two circular bases. It is formed by an infinite number of rectangles with one side on the circumference of each base and the other side along the height of the cylinder.
Volume: The volume of a cylinder is the amount of space it encloses. It can be calculated using the formula V = πr^2h, where r is the radius of the base, and h is the height.
Surface Area: The total surface area of a cylinder includes the areas of its two circular bases and its curved surface. The formula for surface area is A = 2πr^2 + 2πrh.
Cylinders are widely used in various practical applications, such as:
Containers: Many everyday objects, such as cans, bottles, and cups, have a cylindrical shape. This shape is chosen for its efficiency in storing liquids and other materials.
Pipes and Tubes: Many industrial pipes and tubes are cylindrical in shape, making them efficient for transporting fluids, gases, or other substances.
Engineering and Architecture: Cylindrical structures, such as pillars and columns, are commonly used in engineering and architecture to provide support and stability in buildings and infrastructure.
Rotating Machinery: Cylinders play a significant role in various mechanical systems, including engines and turbines, where pistons move within cylindrical chambers.
The simplicity and versatility of the cylinder make it a fundamental shape in mathematics, engineering, and everyday life. Its applications extend across numerous fields, and its properties are extensively used in calculations and designs in various industries.

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RS PRO ISO Standard Cylinder - 50mm Bore, 160mm Stroke, Double Acting Model No 1761657

By RS PRO

₹18,879  

RS PRO ISO Standard Cylinder - 50mm Bore, 160mm Stroke, Double Acting Model No 1761657 is a three-dimensional geometric shape characterized by two parallel circular bases of equal size and a curved surface connecting the bases. It is one of the most fundamental and commonly encountered shapes in geometry and real-world applications. The term "cylinder" is also used to refer to objects that have a cylindrical shape or are cylindrical in nature.
Key features and properties of a cylinder include:
Bases: A cylinder has two identical circular bases, which are positioned parallel to each other. The bases are congruent, meaning they have the same size and shape.
Height: The height of a cylinder is the perpendicular distance between the two bases. It is the measurement of the cylinder's vertical axis.
Curved Surface: The curved surface of a cylinder wraps around the sides, connecting the two circular bases. It is formed by an infinite number of rectangles with one side on the circumference of each base and the other side along the height of the cylinder.
Volume: The volume of a cylinder is the amount of space it encloses. It can be calculated using the formula V = πr^2h, where r is the radius of the base, and h is the height.
Surface Area: The total surface area of a cylinder includes the areas of its two circular bases and its curved surface. The formula for surface area is A = 2πr^2 + 2πrh.
Cylinders are widely used in various practical applications, such as:
Containers: Many everyday objects, such as cans, bottles, and cups, have a cylindrical shape. This shape is chosen for its efficiency in storing liquids and other materials.
Pipes and Tubes: Many industrial pipes and tubes are cylindrical in shape, making them efficient for transporting fluids, gases, or other substances.
Engineering and Architecture: Cylindrical structures, such as pillars and columns, are commonly used in engineering and architecture to provide support and stability in buildings and infrastructure.
Rotating Machinery: Cylinders play a significant role in various mechanical systems, including engines and turbines, where pistons move within cylindrical chambers.
The simplicity and versatility of the cylinder make it a fundamental shape in mathematics, engineering, and everyday life. Its applications extend across numerous fields, and its properties are extensively used in calculations and designs in various industries.

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RS PRO ISO Standard Cylinder - 50mm Bore, 125mm Stroke, Double Acting Model No 1761648

By RS PRO

₹17,699  

RS PRO ISO Standard Cylinder - 50mm Bore, 125mm Stroke, Double Acting Model No 1761648 is a three-dimensional geometric shape characterized by two parallel circular bases of equal size and a curved surface connecting the bases. It is one of the most fundamental and commonly encountered shapes in geometry and real-world applications. The term "cylinder" is also used to refer to objects that have a cylindrical shape or are cylindrical in nature.
Key features and properties of a cylinder include:
Bases: A cylinder has two identical circular bases, which are positioned parallel to each other. The bases are congruent, meaning they have the same size and shape.
Height: The height of a cylinder is the perpendicular distance between the two bases. It is the measurement of the cylinder's vertical axis.
Curved Surface: The curved surface of a cylinder wraps around the sides, connecting the two circular bases. It is formed by an infinite number of rectangles with one side on the circumference of each base and the other side along the height of the cylinder.
Volume: The volume of a cylinder is the amount of space it encloses. It can be calculated using the formula V = πr^2h, where r is the radius of the base, and h is the height.
Surface Area: The total surface area of a cylinder includes the areas of its two circular bases and its curved surface. The formula for surface area is A = 2πr^2 + 2πrh.
Cylinders are widely used in various practical applications, such as:
Containers: Many everyday objects, such as cans, bottles, and cups, have a cylindrical shape. This shape is chosen for its efficiency in storing liquids and other materials.
Pipes and Tubes: Many industrial pipes and tubes are cylindrical in shape, making them efficient for transporting fluids, gases, or other substances.
Engineering and Architecture: Cylindrical structures, such as pillars and columns, are commonly used in engineering and architecture to provide support and stability in buildings and infrastructure.
Rotating Machinery: Cylinders play a significant role in various mechanical systems, including engines and turbines, where pistons move within cylindrical chambers.
The simplicity and versatility of the cylinder make it a fundamental shape in mathematics, engineering, and everyday life. Its applications extend across numerous fields, and its properties are extensively used in calculations and designs in various industries.

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RS PRO ISO Standard Cylinder - 40mm Bore, 80mm Stroke, Double Acting Model No 1761675

By RS PRO

₹14,159  

RS PRO ISO Standard Cylinder - 40mm Bore, 80mm Stroke, Double Acting Model No 1761675 is a three-dimensional geometric shape characterized by two parallel circular bases of equal size and a curved surface connecting the bases. It is one of the most fundamental and commonly encountered shapes in geometry and real-world applications. The term "cylinder" is also used to refer to objects that have a cylindrical shape or are cylindrical in nature.
Key features and properties of a cylinder include:
Bases: A cylinder has two identical circular bases, which are positioned parallel to each other. The bases are congruent, meaning they have the same size and shape.
Height: The height of a cylinder is the perpendicular distance between the two bases. It is the measurement of the cylinder's vertical axis.
Curved Surface: The curved surface of a cylinder wraps around the sides, connecting the two circular bases. It is formed by an infinite number of rectangles with one side on the circumference of each base and the other side along the height of the cylinder.
Volume: The volume of a cylinder is the amount of space it encloses. It can be calculated using the formula V = πr^2h, where r is the radius of the base, and h is the height.
Surface Area: The total surface area of a cylinder includes the areas of its two circular bases and its curved surface. The formula for surface area is A = 2πr^2 + 2πrh.
Cylinders are widely used in various practical applications, such as:
Containers: Many everyday objects, such as cans, bottles, and cups, have a cylindrical shape. This shape is chosen for its efficiency in storing liquids and other materials.
Pipes and Tubes: Many industrial pipes and tubes are cylindrical in shape, making them efficient for transporting fluids, gases, or other substances.
Engineering and Architecture: Cylindrical structures, such as pillars and columns, are commonly used in engineering and architecture to provide support and stability in buildings and infrastructure.
Rotating Machinery: Cylinders play a significant role in various mechanical systems, including engines and turbines, where pistons move within cylindrical chambers.
The simplicity and versatility of the cylinder make it a fundamental shape in mathematics, engineering, and everyday life. Its applications extend across numerous fields, and its properties are extensively used in calculations and designs in various industries.

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RS PRO ISO Standard Cylinder - 40mm Bore, 50mm Stroke, Double Acting Model No 1761696

By RS PRO

₹14,159  

RS PRO ISO Standard Cylinder - 40mm Bore, 50mm Stroke, Double Acting Model No 1761696 is a three-dimensional geometric shape characterized by two parallel circular bases of equal size and a curved surface connecting the bases. It is one of the most fundamental and commonly encountered shapes in geometry and real-world applications. The term "cylinder" is also used to refer to objects that have a cylindrical shape or are cylindrical in nature.
Key features and properties of a cylinder include:
Bases: A cylinder has two identical circular bases, which are positioned parallel to each other. The bases are congruent, meaning they have the same size and shape.
Height: The height of a cylinder is the perpendicular distance between the two bases. It is the measurement of the cylinder's vertical axis.
Curved Surface: The curved surface of a cylinder wraps around the sides, connecting the two circular bases. It is formed by an infinite number of rectangles with one side on the circumference of each base and the other side along the height of the cylinder.
Volume: The volume of a cylinder is the amount of space it encloses. It can be calculated using the formula V = πr^2h, where r is the radius of the base, and h is the height.
Surface Area: The total surface area of a cylinder includes the areas of its two circular bases and its curved surface. The formula for surface area is A = 2πr^2 + 2πrh.
Cylinders are widely used in various practical applications, such as:
Containers: Many everyday objects, such as cans, bottles, and cups, have a cylindrical shape. This shape is chosen for its efficiency in storing liquids and other materials.
Pipes and Tubes: Many industrial pipes and tubes are cylindrical in shape, making them efficient for transporting fluids, gases, or other substances.
Engineering and Architecture: Cylindrical structures, such as pillars and columns, are commonly used in engineering and architecture to provide support and stability in buildings and infrastructure.
Rotating Machinery: Cylinders play a significant role in various mechanical systems, including engines and turbines, where pistons move within cylindrical chambers.
The simplicity and versatility of the cylinder make it a fundamental shape in mathematics, engineering, and everyday life. Its applications extend across numerous fields, and its properties are extensively used in calculations and designs in various industries.

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RS PRO ISO Standard Cylinder - 40mm Bore, 25mm Stroke, Double Acting Model No 1761697

By RS PRO

₹12,979  

RS PRO ISO Standard Cylinder - 40mm Bore, 25mm Stroke, Double Acting Model No 1761697 is a three-dimensional geometric shape characterized by two parallel circular bases of equal size and a curved surface connecting the bases. It is one of the most fundamental and commonly encountered shapes in geometry and real-world applications. The term "cylinder" is also used to refer to objects that have a cylindrical shape or are cylindrical in nature.
Key features and properties of a cylinder include:
Bases: A cylinder has two identical circular bases, which are positioned parallel to each other. The bases are congruent, meaning they have the same size and shape.
Height: The height of a cylinder is the perpendicular distance between the two bases. It is the measurement of the cylinder's vertical axis.
Curved Surface: The curved surface of a cylinder wraps around the sides, connecting the two circular bases. It is formed by an infinite number of rectangles with one side on the circumference of each base and the other side along the height of the cylinder.
Volume: The volume of a cylinder is the amount of space it encloses. It can be calculated using the formula V = πr^2h, where r is the radius of the base, and h is the height.
Surface Area: The total surface area of a cylinder includes the areas of its two circular bases and its curved surface. The formula for surface area is A = 2πr^2 + 2πrh.
Cylinders are widely used in various practical applications, such as:
Containers: Many everyday objects, such as cans, bottles, and cups, have a cylindrical shape. This shape is chosen for its efficiency in storing liquids and other materials.
Pipes and Tubes: Many industrial pipes and tubes are cylindrical in shape, making them efficient for transporting fluids, gases, or other substances.
Engineering and Architecture: Cylindrical structures, such as pillars and columns, are commonly used in engineering and architecture to provide support and stability in buildings and infrastructure.
Rotating Machinery: Cylinders play a significant role in various mechanical systems, including engines and turbines, where pistons move within cylindrical chambers.
The simplicity and versatility of the cylinder make it a fundamental shape in mathematics, engineering, and everyday life. Its applications extend across numerous fields, and its properties are extensively used in calculations and designs in various industries.

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RS PRO ISO Standard Cylinder - 40mm Bore, 250mm Stroke, Double Acting Model No 1761653

By RS PRO

₹16,519  

RS PRO ISO Standard Cylinder - 40mm Bore, 250mm Stroke, Double Acting Model No 1761653 is a three-dimensional geometric shape characterized by two parallel circular bases of equal size and a curved surface connecting the bases. It is one of the most fundamental and commonly encountered shapes in geometry and real-world applications. The term "cylinder" is also used to refer to objects that have a cylindrical shape or are cylindrical in nature.
Key features and properties of a cylinder include:
Bases: A cylinder has two identical circular bases, which are positioned parallel to each other. The bases are congruent, meaning they have the same size and shape.
Height: The height of a cylinder is the perpendicular distance between the two bases. It is the measurement of the cylinder's vertical axis.
Curved Surface: The curved surface of a cylinder wraps around the sides, connecting the two circular bases. It is formed by an infinite number of rectangles with one side on the circumference of each base and the other side along the height of the cylinder.
Volume: The volume of a cylinder is the amount of space it encloses. It can be calculated using the formula V = πr^2h, where r is the radius of the base, and h is the height.
Surface Area: The total surface area of a cylinder includes the areas of its two circular bases and its curved surface. The formula for surface area is A = 2πr^2 + 2πrh.
Cylinders are widely used in various practical applications, such as:
Containers: Many everyday objects, such as cans, bottles, and cups, have a cylindrical shape. This shape is chosen for its efficiency in storing liquids and other materials.
Pipes and Tubes: Many industrial pipes and tubes are cylindrical in shape, making them efficient for transporting fluids, gases, or other substances.
Engineering and Architecture: Cylindrical structures, such as pillars and columns, are commonly used in engineering and architecture to provide support and stability in buildings and infrastructure.
Rotating Machinery: Cylinders play a significant role in various mechanical systems, including engines and turbines, where pistons move within cylindrical chambers.
The simplicity and versatility of the cylinder make it a fundamental shape in mathematics, engineering, and everyday life. Its applications extend across numerous fields, and its properties are extensively used in calculations and designs in various industries.

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RS PRO ISO Standard Cylinder - 40mm Bore, 200mm Stroke, Double Acting Model No 1761654

By RS PRO

₹16,519  

RS PRO ISO Standard Cylinder - 40mm Bore, 200mm Stroke, Double Acting Model No 1761654 is a three-dimensional geometric shape characterized by two parallel circular bases of equal size and a curved surface connecting the bases. It is one of the most fundamental and commonly encountered shapes in geometry and real-world applications. The term "cylinder" is also used to refer to objects that have a cylindrical shape or are cylindrical in nature.
Key features and properties of a cylinder include:
Bases: A cylinder has two identical circular bases, which are positioned parallel to each other. The bases are congruent, meaning they have the same size and shape.
Height: The height of a cylinder is the perpendicular distance between the two bases. It is the measurement of the cylinder's vertical axis.
Curved Surface: The curved surface of a cylinder wraps around the sides, connecting the two circular bases. It is formed by an infinite number of rectangles with one side on the circumference of each base and the other side along the height of the cylinder.
Volume: The volume of a cylinder is the amount of space it encloses. It can be calculated using the formula V = πr^2h, where r is the radius of the base, and h is the height.
Surface Area: The total surface area of a cylinder includes the areas of its two circular bases and its curved surface. The formula for surface area is A = 2πr^2 + 2πrh.
Cylinders are widely used in various practical applications, such as:
Containers: Many everyday objects, such as cans, bottles, and cups, have a cylindrical shape. This shape is chosen for its efficiency in storing liquids and other materials.
Pipes and Tubes: Many industrial pipes and tubes are cylindrical in shape, making them efficient for transporting fluids, gases, or other substances.
Engineering and Architecture: Cylindrical structures, such as pillars and columns, are commonly used in engineering and architecture to provide support and stability in buildings and infrastructure.
Rotating Machinery: Cylinders play a significant role in various mechanical systems, including engines and turbines, where pistons move within cylindrical chambers.
The simplicity and versatility of the cylinder make it a fundamental shape in mathematics, engineering, and everyday life. Its applications extend across numerous fields, and its properties are extensively used in calculations and designs in various industries.

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RS PRO ISO Standard Cylinder - 40mm Bore, 160mm Stroke, Double Acting Model No 1761655

By RS PRO

₹15,339  

RS PRO ISO Standard Cylinder - 40mm Bore, 160mm Stroke, Double Acting Model No 1761655 is a three-dimensional geometric shape characterized by two parallel circular bases of equal size and a curved surface connecting the bases. It is one of the most fundamental and commonly encountered shapes in geometry and real-world applications. The term "cylinder" is also used to refer to objects that have a cylindrical shape or are cylindrical in nature.
Key features and properties of a cylinder include:
Bases: A cylinder has two identical circular bases, which are positioned parallel to each other. The bases are congruent, meaning they have the same size and shape.
Height: The height of a cylinder is the perpendicular distance between the two bases. It is the measurement of the cylinder's vertical axis.
Curved Surface: The curved surface of a cylinder wraps around the sides, connecting the two circular bases. It is formed by an infinite number of rectangles with one side on the circumference of each base and the other side along the height of the cylinder.
Volume: The volume of a cylinder is the amount of space it encloses. It can be calculated using the formula V = πr^2h, where r is the radius of the base, and h is the height.
Surface Area: The total surface area of a cylinder includes the areas of its two circular bases and its curved surface. The formula for surface area is A = 2πr^2 + 2πrh.
Cylinders are widely used in various practical applications, such as:
Containers: Many everyday objects, such as cans, bottles, and cups, have a cylindrical shape. This shape is chosen for its efficiency in storing liquids and other materials.
Pipes and Tubes: Many industrial pipes and tubes are cylindrical in shape, making them efficient for transporting fluids, gases, or other substances.
Engineering and Architecture: Cylindrical structures, such as pillars and columns, are commonly used in engineering and architecture to provide support and stability in buildings and infrastructure.
Rotating Machinery: Cylinders play a significant role in various mechanical systems, including engines and turbines, where pistons move within cylindrical chambers.
The simplicity and versatility of the cylinder make it a fundamental shape in mathematics, engineering, and everyday life. Its applications extend across numerous fields, and its properties are extensively used in calculations and designs in various industries.

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Ships within 15 days

RS PRO ISO Standard Cylinder - 40mm Bore, 125mm Stroke, Double Acting Model No 1761684

By RS PRO

₹14,159  

RS PRO ISO Standard Cylinder - 40mm Bore, 125mm Stroke, Double Acting Model No 1761684 is a three-dimensional geometric shape characterized by two parallel circular bases of equal size and a curved surface connecting the bases. It is one of the most fundamental and commonly encountered shapes in geometry and real-world applications. The term "cylinder" is also used to refer to objects that have a cylindrical shape or are cylindrical in nature.
Key features and properties of a cylinder include:
Bases: A cylinder has two identical circular bases, which are positioned parallel to each other. The bases are congruent, meaning they have the same size and shape.
Height: The height of a cylinder is the perpendicular distance between the two bases. It is the measurement of the cylinder's vertical axis.
Curved Surface: The curved surface of a cylinder wraps around the sides, connecting the two circular bases. It is formed by an infinite number of rectangles with one side on the circumference of each base and the other side along the height of the cylinder.
Volume: The volume of a cylinder is the amount of space it encloses. It can be calculated using the formula V = πr^2h, where r is the radius of the base, and h is the height.
Surface Area: The total surface area of a cylinder includes the areas of its two circular bases and its curved surface. The formula for surface area is A = 2πr^2 + 2πrh.
Cylinders are widely used in various practical applications, such as:
Containers: Many everyday objects, such as cans, bottles, and cups, have a cylindrical shape. This shape is chosen for its efficiency in storing liquids and other materials.
Pipes and Tubes: Many industrial pipes and tubes are cylindrical in shape, making them efficient for transporting fluids, gases, or other substances.
Engineering and Architecture: Cylindrical structures, such as pillars and columns, are commonly used in engineering and architecture to provide support and stability in buildings and infrastructure.
Rotating Machinery: Cylinders play a significant role in various mechanical systems, including engines and turbines, where pistons move within cylindrical chambers.
The simplicity and versatility of the cylinder make it a fundamental shape in mathematics, engineering, and everyday life. Its applications extend across numerous fields, and its properties are extensively used in calculations and designs in various industries.

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RS PRO ISO Standard Cylinder - 40mm Bore, 100mm Stroke, Double Acting Model No 1761647

By RS PRO

₹14,159  

RS PRO ISO Standard Cylinder - 40mm Bore, 100mm Stroke, Double Acting Model No 1761647 is a three-dimensional geometric shape characterized by two parallel circular bases of equal size and a curved surface connecting the bases. It is one of the most fundamental and commonly encountered shapes in geometry and real-world applications. The term "cylinder" is also used to refer to objects that have a cylindrical shape or are cylindrical in nature.
Key features and properties of a cylinder include:
Bases: A cylinder has two identical circular bases, which are positioned parallel to each other. The bases are congruent, meaning they have the same size and shape.
Height: The height of a cylinder is the perpendicular distance between the two bases. It is the measurement of the cylinder's vertical axis.
Curved Surface: The curved surface of a cylinder wraps around the sides, connecting the two circular bases. It is formed by an infinite number of rectangles with one side on the circumference of each base and the other side along the height of the cylinder.
Volume: The volume of a cylinder is the amount of space it encloses. It can be calculated using the formula V = πr^2h, where r is the radius of the base, and h is the height.
Surface Area: The total surface area of a cylinder includes the areas of its two circular bases and its curved surface. The formula for surface area is A = 2πr^2 + 2πrh.
Cylinders are widely used in various practical applications, such as:
Containers: Many everyday objects, such as cans, bottles, and cups, have a cylindrical shape. This shape is chosen for its efficiency in storing liquids and other materials.
Pipes and Tubes: Many industrial pipes and tubes are cylindrical in shape, making them efficient for transporting fluids, gases, or other substances.
Engineering and Architecture: Cylindrical structures, such as pillars and columns, are commonly used in engineering and architecture to provide support and stability in buildings and infrastructure.
Rotating Machinery: Cylinders play a significant role in various mechanical systems, including engines and turbines, where pistons move within cylindrical chambers.
The simplicity and versatility of the cylinder make it a fundamental shape in mathematics, engineering, and everyday life. Its applications extend across numerous fields, and its properties are extensively used in calculations and designs in various industries.

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Ships within 15 days

RS PRO ISO Standard Cylinder - 32mm Bore, 80mm Stroke, Double Acting Model No 1761714

By RS PRO

₹11,799  

RS PRO ISO Standard Cylinder - 32mm Bore, 80mm Stroke, Double Acting Model No 1761714 is a three-dimensional geometric shape characterized by two parallel circular bases of equal size and a curved surface connecting the bases. It is one of the most fundamental and commonly encountered shapes in geometry and real-world applications. The term "cylinder" is also used to refer to objects that have a cylindrical shape or are cylindrical in nature.
Key features and properties of a cylinder include:
Bases: A cylinder has two identical circular bases, which are positioned parallel to each other. The bases are congruent, meaning they have the same size and shape.
Height: The height of a cylinder is the perpendicular distance between the two bases. It is the measurement of the cylinder's vertical axis.
Curved Surface: The curved surface of a cylinder wraps around the sides, connecting the two circular bases. It is formed by an infinite number of rectangles with one side on the circumference of each base and the other side along the height of the cylinder.
Volume: The volume of a cylinder is the amount of space it encloses. It can be calculated using the formula V = πr^2h, where r is the radius of the base, and h is the height.
Surface Area: The total surface area of a cylinder includes the areas of its two circular bases and its curved surface. The formula for surface area is A = 2πr^2 + 2πrh.
Cylinders are widely used in various practical applications, such as:
Containers: Many everyday objects, such as cans, bottles, and cups, have a cylindrical shape. This shape is chosen for its efficiency in storing liquids and other materials.
Pipes and Tubes: Many industrial pipes and tubes are cylindrical in shape, making them efficient for transporting fluids, gases, or other substances.
Engineering and Architecture: Cylindrical structures, such as pillars and columns, are commonly used in engineering and architecture to provide support and stability in buildings and infrastructure.
Rotating Machinery: Cylinders play a significant role in various mechanical systems, including engines and turbines, where pistons move within cylindrical chambers.
The simplicity and versatility of the cylinder make it a fundamental shape in mathematics, engineering, and everyday life. Its applications extend across numerous fields, and its properties are extensively used in calculations and designs in various industries.

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Ships within 15 days

RS PRO ISO Standard Cylinder - 32mm Bore, 50mm Stroke, Double Acting Model No 1761704

By RS PRO

₹11,327  

RS PRO ISO Standard Cylinder - 32mm Bore, 50mm Stroke, Double Acting Model No 1761704 is a three-dimensional geometric shape characterized by two parallel circular bases of equal size and a curved surface connecting the bases. It is one of the most fundamental and commonly encountered shapes in geometry and real-world applications. The term "cylinder" is also used to refer to objects that have a cylindrical shape or are cylindrical in nature.
Key features and properties of a cylinder include:
Bases: A cylinder has two identical circular bases, which are positioned parallel to each other. The bases are congruent, meaning they have the same size and shape.
Height: The height of a cylinder is the perpendicular distance between the two bases. It is the measurement of the cylinder's vertical axis.
Curved Surface: The curved surface of a cylinder wraps around the sides, connecting the two circular bases. It is formed by an infinite number of rectangles with one side on the circumference of each base and the other side along the height of the cylinder.
Volume: The volume of a cylinder is the amount of space it encloses. It can be calculated using the formula V = πr^2h, where r is the radius of the base, and h is the height.
Surface Area: The total surface area of a cylinder includes the areas of its two circular bases and its curved surface. The formula for surface area is A = 2πr^2 + 2πrh.
Cylinders are widely used in various practical applications, such as:
Containers: Many everyday objects, such as cans, bottles, and cups, have a cylindrical shape. This shape is chosen for its efficiency in storing liquids and other materials.
Pipes and Tubes: Many industrial pipes and tubes are cylindrical in shape, making them efficient for transporting fluids, gases, or other substances.
Engineering and Architecture: Cylindrical structures, such as pillars and columns, are commonly used in engineering and architecture to provide support and stability in buildings and infrastructure.
Rotating Machinery: Cylinders play a significant role in various mechanical systems, including engines and turbines, where pistons move within cylindrical chambers.
The simplicity and versatility of the cylinder make it a fundamental shape in mathematics, engineering, and everyday life. Its applications extend across numerous fields, and its properties are extensively used in calculations and designs in various industries.

Add to Cart Buy Now

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