铆螺母安装过程仿真建模及锁紧力矩衰退规律研究

Simulation modeling of rivet nut installation process and study of locking torque recession

  • 摘要: 铆螺母是一种新型紧固件,现已广泛应用于汽车、航空和建筑等领域。基于ABAQUS有限元仿真软件建立了铆螺母安装与失效过程的三维有限元数值仿真模型。结合仿真分析以及试验研究,分别探究了铆螺母变形区厚度对紧固件安装成型规律影响,以及收口工艺参数对锁紧力矩的影响规律。结果表明,变形区厚度为0.44 mm 时铆接结构的轴向拉拔力最大,并且能够紧密贴合被连接件。此外,采用矩形收口能够保证铆螺母获得比较均匀的径向变形,并且获得足够的锁紧力矩。并且开展了锁紧力矩衰减实验,探究了收口后铆螺母多次使用后的力矩衰减规律。开展了铆螺母变形区厚度与收口形式对结构的力学性能影响研究,对此类紧固件的设计制造具有一定的参考意义。

     

    Abstract: Blind rivet nut is a new type of fastener, now widely used in the automotive, aviation and construction fields. In this paper, a 3D finite element numerical simulation model of the blind rivet nut installation and failure process is established with ABAQUS simulation software. Combined the simulation analysis as with the experimental research, the influence of the thickness of the rivet nut deformation zone on the fastener installation forming and closure process parameters on the locking torque were investigated respectively. The results show that the riveted structure has the highest axial pull-off force at a deformation zone thickness of 0.44 mm and is able to closely fit the connected parts. In addition, the use of a rectangular closure ensures that the riveted nut obtains a relatively uniform radial deformation and a sufficient locking torque. Furthermore, the decay of the locking torque was investigated and the decay of the rivet nut after repeated use was investigated. Carry out the influence of the rivet nut deformation zone thickness and the form of closure on the mechanical properties of the jointed, which has a certain reference significance for the design and manufacture of such fasteners.

     

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