Pressure vessel test chamber problem

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A pressure vessel test chamber is being designed for small vessels up to 10 liters, tested at 45 barg. The focus is on calculating the impact force on the containment wall in the event of a catastrophic failure of an end cap weld. The chamber will be box-shaped with an opening door, and the vessels will be held in a fixture during testing with compressed air. Basic stress calculations are within the designer's capability, and guidance on using conservation of momentum and F=ma for force calculations is requested. Establishing the required wall strength is crucial for safety in worst-case scenarios.
David Fyffe
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I have to design a chamber where a range of small pressure vessels can be safely pressure tested. They range up to around 10 litres in capacity and are tested at 45 barg. The vessel is a thick wall tube with two domed end caps welded construction. I would like some guidance on how to calculate the effect of a catastrophic failure should an end cap weld fail. What would the impact force be on the containment wall. The container is to be a box form with an opening door. I need to establish the wall strength required. I considered that this would be the worst case scenario as leaks would not not eject material. The vessel is to be held in a fixture during the pressure test. The test will use compressed air only. The distance to the container wall is likely to be around 300mm or less. I would appreciate some not too complicated formulas or guidance.

I have been involved in pressure vessel design in the past and can do some basic stress calcs.

David
 
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If you know the force pushing on the end cap and the mass of it.You should be able to use the conservation of momentum and F=ma to calculate the force on the containment.
 

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