A hydraulic cylinder with a bore of 101.6 mm and stroke of 400 mm is a critical component in many industrial applications. It is usually made of high-strength steel, with elastomer seals that ensure tightness and reduce friction. The dimensions of the cylinder are essential to determine its mechanical characteristics, such as the force generated, which depends on the hydraulic pressure and the piston area.
The formula to calculate the force generated is:
F=P×AF = P \times A
Where:
A=π×(d/2)2A = \pi \times (d/2)^2
For a bore of 101.6 mm (0.1016 m), the area will be:
A=π×(0.0508)2≈0.0081 m2A = \pi \times (0.0508)^2 \approx 0.0081 \, m^2
If we assume an operating pressure of 100 bar (10 MPa):
F=10×106×0.0081=81.000 NF = 10 \times 10^6 \times 0.0081 = 81.000 \, N
These hydraulic cylinders are used in industries such as logistics, industrial machine building, and agriculture, where high forces are required for lifting, compression or movement.
Purchasing hydraulic cylinders ready for delivery in stock is an advantageous choice as it reduces downtime in the event of a fault, allowing rapid replacement and minimizing plant downtime.
Hydraulic cylinder manufacturers, such as Bosch Rexroth, Parker Hannifin, or Caterpillar, are known for their reliability and quality in the industry. They offer robust and durable solutions for demanding working environments, with a wide range of configurations to meet the needs of different industries
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