摘要
通过单轴拉伸与平面拉伸试验,得到了柔性接头弹性件橡胶材料"三阶五项式"超弹本构模型参数,通过有限元计算证明了该模型的优越性。为了获得柔性接头弹性件材料剪切模量随容压的变化规律,设计了双轴加载试验装置和表征柔性接头弹性件的三重片试件,进行了压缩剪切联合加载试验及有限元数值模拟,发现橡胶材料的剪切模量随压强的升高略有增加。数值模拟柔性接头不同压强下的摆动过程,发现随压强升高弹性件的剪应力分布变化明显,这正是随压强升高摆动力矩下降的内在原因。
Planar and uniaxial tests were implemented to obtain the parameters for the 3rd-order 5-item hyperelastic constitative model of flexible joint elastomer, with FEM calculation, the model was proved superior. In order to measure the shear modulus of the elastomer under different pressures, biaxial tensile device and three-board sample were designed, and the compression-shear test and FEM simulation were performed. The test results show that the shear modulus of the elastomer rises with enhancing compression. The swing process of flexible joints under different pressures was numerical simulated. The reason why deflection torque decrese with enhancing pressure is that the shear stress distribution has changed.
出处
《固体火箭技术》
EI
CAS
CSCD
北大核心
2011年第3期364-368,共5页
Journal of Solid Rocket Technology
关键词
柔性接头
压缩剪切
剪切模量
双轴加载装置
flexible joint
compression-shear
shear modulus
biaxial loading device
