1) blasting in shallow water
浅水爆炸
2) explosion in shallow water
浅层水中爆炸
1.
The dynamic response of the warship as well as the shock environment of the equipment under the explosion in shallow water are investigated by means of the software MSC/Dytran.
以MSC/Dytran为平台,对浅层水中爆炸载荷作用下舰船结构的动态响应及设备冲击环境进行了研究。
3) underwater explosion
水下爆炸
1.
The applicability of scaling laws to underwater explosion models tests;
相似理论在水下爆炸模型试验中的应用
2.
Method research of charactering vitality of surface warship subjected to underwater explosion;
水面舰艇结构抗水下爆炸毁伤能力表征方法研究
3.
Numerical calculations!of the bubble pulsation forces of underwater explosions;
水下爆炸气泡脉动的数值计算
4) underwater explosion
水中爆炸
1.
The dynamical response of a ship structure subjected tounderwater explosion shock waves;
水中爆炸冲击波载荷作用下舰船结构动态响应的数值模拟
2.
Experimental study on bubble oscillation formed during underwater explosions;
水中爆炸气泡脉动现象的实验研究
3.
Physical behaviors of an underwater explosion bubble in a free field;
自由场水中爆炸气泡的物理特性
5) underwater blasting
水下爆炸
1.
Calculation of the initial shock wave energy in underwater blasting;
球形装药水下爆炸初始冲击波能量计算
2.
The paper introduces briefly the attenuation rules of blasting vibration velocity and safety criterions, and analyzes the characteristics of blasting vibration frequency, then the underwater blasting tests using RDX are carried out on laboratory condition, with the intent of studying problems such as ground vibration caused by underwater blasting、 vibration frequency and so on.
文中简要介绍了爆破振动速度衰减规律及安全判据,分析了爆破振动频率的特性,用RDX在实验室条件下进行了水下爆炸测试,其目的是研究炸药在水中爆炸时所引起地面振动及振动频率等问题。
3.
In this paper,formulae of a industrial explosive in underwater blasting are given on the basis of TNT explosion shock wave parameters for explosion in water and principle of the energy similarty.
文中以梯恩梯水下爆炸冲击波参数为基础,根据能量相似原理推导出了工业炸药水下爆炸能量计算公式,分析了影响工业炸药水下爆炸能量的因素。
6) water surface explosion
水面爆炸
1.
The precision guided bomb GBU-28 which is equipping the American army is taken as the research object,By the three-dimensional numerical simulation for water surface explosion of large-aperture-heavy weapon,and using Arbitrary Lagrange-Eu1er method,the fluid-structure coupling dynamic problems for water surface explosion are studied.
选取美军制导炸弹GBU-28作为研究对象,通过对大口径、高弹重武器水面爆炸进行三维数值仿真,利用任意Lagrange-Eu1er计算方法,针对水面爆炸研究了"流-固"耦合动力学问题,分析了水中冲击波和空气冲击波的传播规律以及大坝的动态响应。
补充资料:核爆炸地震波探测(见核爆炸探测)
核爆炸地震波探测(见核爆炸探测)
nuclear explosion seismic detection
hebaozho dizhenbo tanee核爆炸地震波探测(nuclear explos,onseismie detecuon)见核爆炸探汉,l。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条