shell shock
英 [ˈʃel ʃɒk]
美 [ˈʃel ʃɑːk]
n. 弹震症,战斗疲劳症(长时期作战引起的精神疾患)
牛津词典
noun
- 弹震症,战斗疲劳症(长时期作战引起的精神疾患)
a mental illness that can affect soldiers who have been in battle for a long time
柯林斯词典
- N-UNCOUNT 炮弹休克,弹震症(一种因曾置身战火而引起的精神紧张或错乱)
Shell shockis the confused or nervous mental condition of people who have been under fire in a war.- The men were suffering from shell shock.
这些男人患了炮弹休克症。
- The men were suffering from shell shock.
英英释义
noun
- a mental disorder caused by stress of active warfare
双语例句
- Investigation on the Dynamic Displacement Response of Thin Spherical Aluminium Shell Under Blasting Shock Loading of Explosive Charge
空中爆炸冲击波作用下薄壁铝球壳体大变形响应的实验研究 - The results show it is difficult to detonate the charges covered steel shell by rod fragments and shock wave, but they could damage the structure of the targets in appropriate conditions.
结果表明,离散杆式破片和冲击波超压引爆带防护的柱壳装药较难,但可对目标结构进行毁伤。 - Galerkin Approach of the Dynamic Response of a Submerged Cylindrical Shell Subjected to Shock Wave
浸没的圆柱壳在冲击波作用下动响应的Galerkin解法 - The Dynamic Response of a Multi Layered Cylindrical Shell Subjected to Shock Wave Induced by Underwater Explosion
水下爆炸冲击波作用下多层圆柱壳的动响应 - Simulation of Cylindrical Shell Damage by Fragments and Shock Waves
破片和冲击波毁伤圆柱靶的数值仿真 - The Influence of Shell on Blast Shock Wave Intensity
壳体对爆炸空气冲击波强度的影响 - The rationality of selection of material models and the stability of mesh division are verified by damage tests of cylindrical shell under shock wave.
通过圆柱靶冲击波毁伤试验,检验了圆柱靶材料模型及其参数选取的合理性和网格收敛性。 - By introducing a different nondimensional structural parameter, the structural parameter range of a double cylinder shell structure that is more shock resistant was achieved.
通过引入各种无量纲化结构参数,得到了双层圆柱壳结构有利于抗冲击的结构参数取值范围,对潜艇抗冲击设计有参考价值。 - Nonlinear transient dynamic response of free-free ring-stiffened cylindrical shell subjected to underwater explosion shock wave
水下爆炸冲击波作用下自由环肋圆柱壳动态响应的数值仿真研究 - The expanding speed of the neutral gas shell was determined to be in the range of 1.4 km/ s~ 1.7 km/ s, which is much higher than the sound speed in air at room temperature, leading to a shock wave.
气体壳层的膨胀速度为1.4km/s~1.7km/s,远超过空气中的声速而形成激波。