1) Explosive powder compaction
爆炸粉末压实
2) powder explosive compaction
粉末爆炸压实
1.
Recent progresses on the numerical simulation ofpowder explosive compaction are summarized.
本文对粉末爆炸压实数值模拟作了系统评述。
3) explosive compaction
爆炸压实
1.
Effect of the process parameters on energy and deformation of the steel tubes during explosive compaction;
爆炸压实工艺参数对钢管能量与变形的影响
2.
Relationships of explosive press and powder density during explosive compaction;
爆炸压实中爆轰压力与粉末致密度的关系
3.
Study on the relationship between compact density and compaction energy of CuCr alloys by explosive compaction;
爆炸压实CuCr合金的压实能与压实密度关系的研究
4) explosive consolidation
爆炸压实
1.
Friction and heat conduction of nanometer ceramic particles in cold explosive consolidation
冷爆炸压实中纳米陶瓷粉末摩擦传热研究
2.
In explosive consolidation of nano-powders,the duration in which the loading changed markedly on nano-particles by shock wave is far longer than the time of stress wave propagating through the character length of the particles;and the ceramic powders behave brittleness during explosive shock consolidation.
在爆炸压实过程中,纳米颗粒所受冲击载荷发生显著变化的时间远远大于应力波传过颗粒特征长度所用时间;同时,陶瓷颗粒在爆炸冲击过程中主要表现为脆性。
3.
The explosive consolidation of metal powders has been studied in this paper from both experimental and theoretical aspects.
本文从理论和实验两方面对金属粉末的爆炸压实进行了初步的研究,包括: 1、根据理论分析和仔细的阅读有关资料,自行设计了金属粉末爆炸压实所的实验装置(由保持一定距离的两同轴PVC管组成,内管装金属粉末,外管装炸药),对W—Ti粉末进行爆炸压实,结果表明:适当的控制炸药的爆速及厚度、粉末的初始压实密度,可得到结合良好的粉末压实体。
5) explosive consolidation of powders
爆炸粉末烧结
1.
An oblique impaction model of two parallel plates is proposed to study the frictional effect between particles in explosive consolidation of powders.
针对爆炸粉末烧结过程中颗粒间的摩擦效应建立了无夹角斜碰撞模型,分析了烧结过程中颗粒间摩擦力随颗粒温度的变化规律,借助于LS-DYNA有限元程序对孔隙闭合时间进行了研究,并在此基础上用积分法对颗粒间热力耦合的摩擦力引起的界面温升进行了计算,在计算过程中考虑了颗粒尺度效应的影响,给出了发生“尺度效应”的临界尺寸。
6) sulphide-dust explosion
硫化物粉末爆炸
补充资料:动压与超压(见核爆炸冲击波效应)
动压与超压(见核爆炸冲击波效应)
dynamic pressure and over-pressure
dongya yu ehaoya动压与超压(dynami。pressur。。nd over-pressure)见核爆炸冲击波效应。
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