Mount Type Mount Type | Show |
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Mount Type Mount Type | Hide |
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Stroke Length Stroke Length |
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Extended Length Extended Length |
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Force Mechanism Force Mechanism |
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Compressed Length Compressed Length |
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Body Material Body Material |
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Body Finish Body Finish |
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Rod Finish Rod Finish |
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Maximum Temperature Maximum Temperature |
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Minimum Temperature Minimum Temperature |
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Rod Material Rod Material |
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Maximum Cycles per Minute Maximum Cycles per Minute |
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Adjustability Adjustability |
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To select the best shock absorber for your application, you need to find the energy capacity your application requires. Use this formula to calculate the energy capacity required to stop a horizontal-moving load. For example, if you have a 250-lb. load moving at 25 inches per second, your calculation is (250 lbs. ÷ 772) × 252 = 202.4 in.-lbs. energy capacity.
Note: Choose a shock absorber with a higher energy capacity than you calculated. Factors such as driving force or an inclined surface will increase the energy capacity required.
Energy Capacity (in.-lbs.) = (Weight, lbs./772) × Velocity2 (in. per second)
Like the shocks in a car, these mount between two surfaces to minimize vibration and motion transfer caused by sudden impact.
Body | Rod | ||||||||||||
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Compression Force, lbs. | Extension Force, lbs. | Stroke Lg. | Extended Lg. | Compressed Lg. | Dia. | Material | Color | Dia. | Material | Eyelet Dia. | Includes | Each | |
80 | 429 | 5.13" | 14.76" | 9.63" | 2" | Painted Steel | Black | 1.63" | Chrome-Plated Steel | 0.63" × 0.5" | __ | 00000000 | 000000 |
117 | 537 | 9.03" | 23.26" | 14.23" | 2.5" | Painted Steel | White | 2.19" | Chrome-Plated Steel | 0.57" × 0.57" | __ | 00000000 | 00000 |
575 | 555 | 8.35" | 22.48" | 14.11" | 3.04" | Painted Steel | Black | 2" | Chrome-Plated Steel | 0.76" × 0.76" | External Spring | 0000000 | 00000 |