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
- Finite Volume Element Application in Containment Shell Numerical Simulation Under Blast Shock Wave
有限体积元法在安全壳抗爆数值模拟中的应用 - Analyses of dynamic response of a spherical shell in nonlinear geo-medium to shock waves
非线性岩土中球壳对冲击波的动力响应分析 - After this, the dynamic response of a lightweight torpedo shell structure subjected to shock waves induced by far-field underwater explosion was simulated by LS-DYNA, and influence of the torpedo insides and shock environment of the torpedo shell structure were studied.
在此基础上模拟了鱼雷壳体结构在远场水下爆炸作用下的动态响应,研究了鱼雷内部构件的惯性效应对于壳体毁伤的影响,分析了鱼雷壳体的冲击环境。 - On Fuselage-Missile Compatibility of Thin Shell Structure under Shock Wave
冲击波作用下薄壁结构机弹相容性研究 - The shell shock sponged out his memory of the past.
弹震症使他忘却往事。 - 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。 - Research of Simulation for Damage of Cylindrical Shell by Underwater Directional Shock Wave
水下定向冲击波对圆柱壳体破坏的仿真研究 - 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 - 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 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。