为了分析不同功率激光对金属/炸药结构内部温度分布的影响以及炸药爆炸的可能性, 利用有限元软件, 考虑金属材料的物性参量和钢靶表面能量耦合系数随温度的变化规律, 建立了在功率分别为55kW,60kW和65kW的激光辐照下金属/炸药结构的3维温度分布模型, 得到了光斑中心轴线方向温度分布和金属表面中心及金属与炸药接触面的温度随时间变化曲线,在55kW,60kW和65kW 3种功率不同的激光辐照下,5s末炸药表面的温度分别为521K,550K和581K。结果表明, 功率越大炸药获得的温升越大越易引起爆炸, 功率增加时炸药获得的温度增量在不同时刻有所不同, 在一定辐照时间内,炸药的温升发生在与金属接触的小区域内。这对激光辐照金属/炸药结构的深入研究具有指导意义。

In order to analyze effect of different power laser on the temperature fields of the metal/explosive structure and the possibility of thermal explosion of the explosive, the three-dimensional temperature field of the metal/explosive structure irradiated by 55kW, 60kW, 65kW continuous laser was calculated based on a finite element analysis software, ANSYS. In the numerical model, the variation of the physical parameters of the metal materials and the surface energy coupling coefficient of steel target with the change of the temperature was also taken into account. The temperature distribution of the facular center axis direction and the temperature variation curve of the explosive and metal surface center with the change of irradiation time, were given. Under 5s of laser irradiation with different power, i.e., 55kW, 60kW and 65kW, the surface temperatures of the explosive were 521K,550K and 581K respectively. The greater the laser power, the higher the temperature and the easier the explosion. The temperature rise of the explosive is different when the power increases at different time. The temperature rise of the explosive occurs in a small area in contact with the metal within a certain irradiation time. These results have guiding significance to further study on metal／explosive irradiated by laser.