1) micro-shock waves
微冲击波
1.
An impact model of multi-flyer plates was used to research the energy deposition as well as the arising and dissipation of micro-shock waves caused by impact of particles in explosive consolidation of powders.
用多层片组冲击动力模型研究了粉末材料爆炸压实过程中颗粒间碰撞引起的能量沉积和微冲击波的发生、耗散过程。
3) fine particle bombarding
微粒冲击
4) derivative kick
微分冲击
1.
A new type of I-PD controller is presented to eliminate proportional kick and derivative kick,which will cause an great change of manipulated variable and excessive overshoot of process variable with a general PID controller.
为了克服传统PID控制器中当给定值发生阶跃变化时,由于PID控制器输出存在比例冲击和微分冲击,从而使执行器大幅度地动作,过程被控变量产生很大超调的问题,提出了一种对偏差进行积分运算,只对测量所得的过程被控变量进行比例和微分运算的新型I-PD控制器,介绍了该I-PD控制器的工程实现、参数整定、适用场合、改善控制品质的理论依据,以及使用中需要注意的问题。
6) shock wave
冲击波
1.
Simulation analysis of dynamic response of thin-wall cylindrical tank to shock wave;
圆柱形薄壁储罐对爆炸冲击波动力学响应的模拟分析
2.
Resistivity of PZT 95/5 ferroelectric ceramic under shock wave compression;
冲击波加载下PZT95/5铁电陶瓷的电阻率研究
3.
Preparation of nanometer crystallite of TiO_2 by shock waves technology;
利用冲击波技术制备TiO_2纳米晶
补充资料:冲击波
分子式:
CAS号:
性质:见激震波
CAS号:
性质:见激震波
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