The experimental results of the thermal recovery of the wavefront distortion using the single segment amplifier (SSA) test bed and the Hatamann wavefront sensor are reported.
给出了在单口径片状放大器(SSA)实验平台上利用哈特曼波前传感器进行热恢复研究的实验结果。
The results show that the material has higher latent heat and better thermal stability, so it can be used in thermal energy storage and heat recovery system.
测试结果表明,该储能材料具有较高的相变潜热和较好的热稳定性,因此可被应用于储能和热能回收系统中。
The results show that the matrix in the microstructure occurs dynamic recovery and recrystallization and the materials generate cyclic softening during thermal cycling.
结果表明,在热循环过程中基体组织发生动态回复和再结晶,材料产生循环软化;
应用推荐