关键词: 固体推进剂;双向拉伸;有限元分析;优化设计;断裂延伸率

Abstract: A new-style biaxial tensile specimen of solid propellant is designed,based on the cruciform specimens proposed by Kelly.By using the finite element analysis ANSYS,the stress and displacement of specimens in the test section is simulated and the optimization of the cruciform specimens is realized.The stress and displacement fields in the central test section exhibit an excellent homogeneity and the maximum equivalent Von-Mises stress corresponding to the central part of the test section.In particular,the mechanical behavior of the biaxial tensile for HTPB propellant are tested,and the stress-strain wreck curves of biaxial tension are obtained under different tension speed.These data offer criterion for the wreck analysis of propellant material.The results show that the biaxial weakening of solid propellant is remarkable,and the Von-Mises rupture elongation of biaxial tensile decline about 37.5% to uniaxial tensile while the biaxial loads are equivalent.

Key words: Solid propellant;Biaxial tension;Finite element analysis;Optimization;Rupture elongation