Firstly,based on LS-DYNA software,different fence explosion-proof walls were established for finite ele-ment numerical simulation analysis,and the optimal explosion-proof schemes with different cylinder shapes and different explosion-facing surface shapes in the case of single layer were analyzed.It is found that the isosceles right-angled triangu-lar cross-section is the best explosion-proof design scheme for single-layer walls,and secondly,multi-layer explosion-proof walls are constructed through different permutations and combinations according to the best single-layer schemes,and the multi-layer explosion-proof walls can achieve better explosion-proof performance.Secondly,in the case of explosion-proof multi-layer wall,the explosion-proof effect is mainly related to the number of layers and the combination form of the wall.Through the results,it can be seen that the shape of the explosion-proof surface of the wall has a greater impact on the overall explosion-proof performance,and the fence-type explosion-proof wall can not only be comparable to the traditional explosion-proof strong explosion-proof effect but also save more materials,and the required protection scheme can be cus-tomized by increasing or decreasing the number of layers or lengths in different environments.
palisade explosion-proof wallnumerical analysisoptimize the configurationantiknock effect
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