摘要
Rupturing the alumina shell(shell-breaking)is a prerequisite for releasing energy from aluminum powder.Thermal stress overload in a high-temperature environment is an important factor in the rupture of the alumina shell.COMSOL Multiphysics was used to simulate and analyze the shell-breaking response of micron-scale aluminum particles with different particle sizes at 650℃in vacuum.The simulation results show that the thermal stability time and shell-breaking response time of 10μm–100μm aluminum particles are 0.15μs–11.44μs and 0.08μs–3.94μs,respectively.They also reveal the direct causes of shell breaking for aluminum particles with different particle sizes.When the particle size is less than 80μm,the shell-breaking response is a direct result of compressive stress overload.When the particle size is between80μm and 100μm,the shell-breaking response is a direct result of tensile stress overload.This article provides useful guidance for research into the energy release of aluminum powder.
作者
王天一
周正青
彭剑平
高玉坤
张英华
Tian-Yi Wang;Zheng-Qing Zhou;Jian-Ping Peng;Yu-Kun Gao;Ying-Hua Zhang(School of Civil and Resource Engineering,University of Science and Technology Beijing,Beijing 100083,China;Zhaojin Mining Industry Co.,Ltd,Zhaoyuan 265400,China)
基金
the National Natural Science Foundation of China(Grant No.11802160)。
