Influences of particle size of HMX on detonation waves propagation of HMX and HMX/F_(2641);
HMX粒度与爆轰波传播性能的关系研究
Numerical simulation of standing oblique detonation wave using parallel computation method;
驻定斜爆轰波并行数值模拟
Numerical simulation of gaseous detonation waves propagation and comparison with experimental results;
气相爆轰波传播特性的数值模拟及实验对照
Numerical investigation of detonation direct initiation induced by toroidal shock wave focusing;
用环形激波聚焦实现爆轰波直接起爆的数值模拟
Study on the detonation cellular structure of propylene epoxide-Air;
环氧丙烷-空气混合物爆轰波胞格结构的研究
A numerical investigation on the performance of a backward-forward double-detonation driver for high enthalpy shock tubes was conducted by solving one-dimensional Euler equations with the Dispersion Controlled Dissipative (DCD) scheme.
当初始压力比大于临界值时,在主驱动段中能产生过驱动爆轰波,不仅Taylor波被完全消除,而且驱动能力较单一前向爆轰驱动段强。
This paper presents the experimental results of the initiation and stabilization of an oblique detonation by launching a hypervelocity projectiles at velocities of 1700~2100m/s,into H 2 air mixtures.
给出了锥形弹丸以 16 0 0~ 2 10 0m/s的速度射入预混的氢 空气混合介质中形成驻定斜爆轰波的试验结果 ,并讨论锥顶角、飞行体速度以及可燃介质当量比等因素对形成驻定斜爆轰波的影
The oblique detonation stabilized on a hypervelocity projectile was researched by numerical simulations and experimental visualizations.
通过数值模拟和实验显示的方法对驻定在高速飞行体上斜爆轰波流场进行研究。
It is important to study the ignition,growth and propagation of the laser supported detonation waves.
采用高速纹影摄影法记录激光支持等离子体爆轰波流场的演化,得到流场冲击波阵面形状和尺寸随时间变化规律。
In order to carry out an investigation for the influence of physical and geometricl boundary conditions on the propagation of gaseous detonation waves, a double walled detonation shock tube (40×40mm square section) on hand is reconstructed.
为开展边界物理和几何条件对气相爆轰波传播影响的系统研究,需要对已有的40×40mm方截面双层爆轰激波管进行改造。
The results of experiment and theoretical analysis are show that the defects occurred in interface is related to the orientation of detonation waves propagating and the open position of gap pillars,and that the defects can be eliminated or reduced.
通过理论分析,验证了此类缺陷的产生和间隙开口方位相对于爆轰波传播方向有关,消除或减小了缺陷的发生机率。
EXPERIMENTAL INVESTIGATIONS OF THE MACH REFLECTION IN A CONDENSED EXPLOSIVE
凝聚炸药中爆轰波马赫反射的实验研究
Influences of microstructure on detonation-spreading performances of TATB-based explosives
TATB微观结构对炸药爆轰波传播性能的影响
Effects of Focusing Angle on Laser-supported Detonation Wave in Air
聚焦角度对空气中激光维持爆轰波的影响
Temperature Measurement of Laser-Induced Plasma Detonation Wave
激光支持等离子体爆轰波温度的实验测量
Numerical Simulation of the Diffraction Detonation Wave Based on the Modified SPH Method
基于修正SPH方法的爆轰波绕射传播的数值模拟
Research and Application the Radial Detonating Explosives in the Hole Detonation Wave Propagation Direction;
孔内炸药径向起爆爆轰波传播方向的研究及应用
An experimental investigation is presented concerning the re-intension process of a detonation wave occurring downstream of the acoustic absorbing walled section in this paper.
实验研究了爆轰波在声学吸收段下游发生的再恢复过程。
TWO DIMENSIONAL NUMERICAL SIMULATION FOR THE INERTIAL EFFECT OF EMV GAUGE MOVING WITH DETONATION WAVE
电磁量计随爆轰波运动惯性性质的二维数值模拟
The Numerical Method and Simulation for Propagating Front of Non-Ideal 3D Detonation;
三维非理想爆轰波阵面传播过程的数值方法和数值模拟
Experimental Study on Dynamic Behavior of Lead Plate Driven by Two Head-on Colliding Detonation Waves
爆轰波对碰驱动下平面铅飞层对碰区动载行为实验研究
This paper presents a method of characteristics to calculate the structure of the detonation wave in condensed explosive by the decay shock curve data obtained in the aquarium test.
提出了一种利用爆轰波垂直入射时水中冲击波的衰减曲线计算凝聚炸药爆轰波剖面的特征线方法。
As an example, the distribution of the detonation pressure, density, particle and sound velocity along the detonation profile are given for TNT.
以TNT为例进行了计算,给出了其爆轰波内压力、度、速和声速等参数的分布。
Numerical Simulation of Metallic Sphere-shell's Pressure Caused by Detonation Wave Based on Modified SPH
基于修正光滑粒子流体动力学的爆轰波对金属球壳的压强数值模拟
Numerical Simulation Shock Wave Exteral Flow of Pulse Detonation Engine
脉冲爆轰发动机冲击波外流场数值模拟
A acoustooptic switch for shock wave and detonation physics experiments
用于冲击波和爆轰物理实验中的声光开关
Investigation of detached detonation induced by oblique shock in premixed supersonic flow
预混超声速气流斜激波诱导脱体爆轰研究
Boom! Boom! Boom! A series of explosions shook the valley.
轰!轰!轰!一连串爆破声震撼山谷。
detonation limit for mixture gases
可燃混合气的爆轰范围
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