Coordinated optimization of wire-wound hoses based on finite element analysis
In view of the problem that the high-pressure hose is prone to fatigue damage in the process of use;after being compressed at the same time,it is easy to elongate or shorten in the axial direction,making it unable to meet the use of rubber hoses.In response to the fatigue damage and changes in length of high-pressure rubber hoses,finite element analysis was used in structural design,and orthogonal experiments were conducted to optimize the design.The effect of four layers of steel wire winding angle on the fatigue life and length change of steel wire winding rubber hoses under high-pressure working conditions was studied.The results show that the maximum axial displacement of the optimized scheme is reduced by 76%compared with the original design scheme,and the maximum value of strain energy density is reduced by 63%,which significantly reduces the axial length change rate of the rubber hose,improves the fatigue durability,and achieves the goal of coordinated optimization.The results of simulation and analysis of the design of the rapid screening and optimization of the design scheme for the structural design of high-pressure hose provides a new idea to improve the durability of the hose has a certain guiding significance.
steel wire wound rubber hosehigh pressure conditionorthogonal test methodFEA
万方数据
维普
