关键词: 固体推进剂;推进剂可储存性;裂纹;储存寿命;微观力学

Abstract: On the basis of analysis for two models of void cumulative damage and damage of fine holes nucleation, growth and joinder,a mechanical model of void damage was presented. According to the viscoelastic correspondence principle and mathermatical treatment two mathermatical theory formulation for void damage variety were anayzed. With the aid of the discontiguous diagnostic patent technology for the void damage and thermal aging test of the void damage of grain, the experiment curve for void damage variety and the service life of a solid composite grain were obtained. Because the critical storage life is measured, the contract test shows that when aging time exceeds the critical storage life , the cracks will occur in grain. The longer the exceeding critical storage life, the bigger are the cracks in grain.

Key words: Solid propellant;Propellant storability;Crack;Storage life;Micromechanics