depth charge

美 [ˈdepθ tʃɑːrdʒ]英 [ˈdepθ tʃɑːdʒ]
  • n.(用以摧毁潜艇)深水炸弹

复数: depth charges

depth chargedepth charge

noun

(用以摧毁潜艇)深水炸弹
a bomb that is set to explode underwater, used to destroy submarines

depth charge

频次

  • 1
    N-COUNT 深水炸弹
    A depth charge is a type of bomb which explodes under water and which is used especially to destroy enemy submarines.

noun

1
a bomb that explodes at a preset depth under water;antisubmarine device
Synonym: depth bomb

数据来源:WordNet

  1. Analysis for Efficiency of Depth Charge Weapon System

    深弹武器系统效能分析

  2. Analysis of the antagonism between depth charge system and submarine

    不同体制引信对深弹反潜效能影响的分析

  3. Operational Effectiveness Evaluation of Anti-torpedo System of Suspended Depth Charge

    悬浮式深弹反鱼雷系统作战效能分析

  4. The Simulation of Depth Charge 's Underwater Ballistics Based on MATLAB / Simulink

    基于MATLAB/Simulink的火箭深弹水中弹道仿真

  5. Effectiveness and Simulation Analysis for Rocket Depth Charge with Projectiles Defense Against Torpedo 's Attack

    子母深弹反鱼雷攻击效能及仿真

  6. The passive ranging technology of moored depth charge

    悬浮式深弹的被动测距技术

  7. By correlation processing of the received noise , the bearing information relative to the depth charge can be obtained .

    该噪声经过相关处理后,就可给出水下目标相对于深弹的方位信息。

  8. Evasive maneuver is one of key problems a surface ship faces while releasing suspended depth charge to intercept a torpedo .

    水面舰艇使用悬浮式深弹拦截鱼雷时如何进行规避机动是舰艇防御鱼雷的重要问题之一。

  9. The hydrodynamic computation on moving base vertical launching of underwater missile Simulation of the Underwater Dynamic Model of Unpowered Aviation Homing Depth Charge

    导弹水下动机座垂直发射过程的水动力计算无动力导向航空深弹水下运动建模与仿真

  10. Aiming at the constitution and features of rocket depth charge weapon system , the paper analyzes the operational efficiency of the system by reliability theory and efficiency evaluation theory .

    针对火箭深弹反潜武器系统的组成及其特点,运用可靠性理论和效能评估理论分析系统的作战效能。

  11. Based on the structure and working principle of anti-torpedo system of suspended depth charge , operational effectiveness model of anti-torpedo system of suspended depth charge is proposed .

    基于悬浮式深弹反鱼雷系统的组成和工作原理,提出了悬浮式深弹反鱼雷系统的作战效能评估方法。

  12. When this disturbance occurred , you may , if science is advanced enough at the time , put a depth charge into it and disrupt the flow of time .

    当这个扰动发生的时候,你可以如果此时科学足够发达的放进一个水雷(depthcharge),来干扰时间流。

  13. After a terminal-guidance rocket-propelled depth charge sinks in water , it can receive the noise generated by moving targets using an underwater acoustic detection system installed at the head .

    火箭助飞末制导深弹入水后,在下沉过程中,即可利用深弹头部安装的声学探测系统(声呐)接收水中运动目标的辐射噪声。

  14. The thesis also discusses the probability of intercept the attacking torpedo by utilizing the coalescent of torpedo ' locate buoy and rocket depth charge , which found on the trait of vector hydrophone .

    本文还根据矢量水听器的特点,探讨了利用基于矢量水听器的鱼雷定位浮标与火箭深弹相结合拦截来袭鱼雷的可行性。

  15. Now the fire range and fire precision of rocket depth charge has been improved , and it will make the source of the rocket depth charges wasted and affect the hit probability raised if we still use the old fire strategy .

    火箭深弹射程与射击精度提高后,如再沿用以固定发射间隔,对同一瞄准点齐射的方法对潜射击会造成资源的浪费,影响毁伤概率的提高。

  16. When the suspended depth charge is used to explore the torpedo , how to estimate the range of course angle correctly becomes the key point to lay the suspended depth charge accurately , if the distance to the aim can only be estimated by the experience of sonar soldiers .

    在悬浮式深弹反鱼雷时,若只能根据声纳兵的经验估计鱼雷距离,如何正确估计鱼雷航向角范围就成为正确布放悬浮式深弹的关键。

  17. Determinations of Mean Charge Depth and Charge Density in Electret Based on Silicon Substrate

    硅基多层无机驻极体薄膜中平均电荷重心和密度的确定

  18. The hole depth ( charge length ) is one of the factors to influence the character of blast wave in rock .

    炮孔深度(装药长度)是影响岩体中爆炸应力波特性的因素之一。

  19. In the period of cutting method using , may achieve to control gas emission by adjusting the factors of cutting height , and depth and charge of artillery eye .

    掏槽方法使用期间,可通过对掏槽的高度、炮眼的深度及装药量的多少等因素的调整,来达到有控制地释放瓦斯的目的。

  20. The results indicate that the decay coefficient of the peak value of blast wave with the distance will be reduced as the hole depth ( charge length ) is increased .

    计算表明,炮孔深度(装药长度)增大,爆炸应力波峰值随距离的衰减指数减小。

  21. The mean charge depth and the charge density can be calculated .

    电荷重心和电荷密度可通过计算得出。

  22. The hydraulic pressure is related to the depth of the charge , according as the physics theory , every 10 meters depth pressure of water equal to 1 atm .

    前者与装药深度有关,后者与大气压的变化或者是否外加气压有关。根据物理学上的原理,每10m水深压力相当于一个标准大气压。

  23. Capacity fade and inconsistent of the battery pack degree with the increase with the depth of the charge and discharge and the tendency was expanding , in practical application , long-term depth discharge of the battery pack should be avoided .

    电池组容量衰减程度与不一致度随着充放电深度的增加而呈扩大趋势,在实际使用过程中,应尽量避免电池组的长期的深度放电。

  24. Main structure parameters are designed using orthogonal graph research how parameters affect the penetration depth of linear shaped charge ( LSC ) .

    为研究线性切割器结构参数对侵彻深度的影响,利用正交表设计了主要结构参数。

  25. An in situ TSD charge spectrum contains combined information on the changes of the mean charge depth and the deposited charge value .

    理论分析表明,电荷TSD在线测量法可给出升温过程中电荷重心及电荷量变化的综合信息。

  26. A series of formulae on penetration depth of linear shaped charge and the calculation method on design coefficient of linear shaped cutter are provided .

    提供了一套线性聚能装药侵彻深度计算公式及线性聚能切割器设计参数计算方法。

  27. Sonic wave velocity is tested and its law is analyzed . Results show that rock damage layer depth of eccentric decouple charge smooth blasting is coincided with 1.5 m.

    结果表明,偏心不耦合装药爆破引起边坡岩体损伤层厚度均达到1.5m左右。

  28. To solve the problem coming from the special surface of the soil Yuan in the Erdos basin , we adopt the high precise well depth of shooting , charge and coupling optimizing selection .

    针对鄂尔多斯盆地黄土塬地区的特殊地表地形特征,采取高精度的激发井深、药量和震源耦合的优化选取。

  29. The influence of the thickness on the shift of mean charge depth of the deposited charge layer under different temperature conditions is also investigated by the measurements of heat pulse technique in combination with conductivity glow curve .

    通过热脉冲技术组合电导率温度曲线的测量,研究了在不同温度条件下样品厚度对沉积电荷层的平均电荷重心移动的影响。

  30. Transient simulation is carried out for the charge handling capacity of a CCD with channel width of 7 μ m , followed by discussion on the effect of different channel junction depth and impurity on charge handling capacity .

    采用此方法对一种沟道宽度为7μm的CCD信道电荷容量进行了瞬态模拟,对不同结深、不同沟道掺杂浓度对CCD电荷容量的影响进行了讨论。