1) small energy lash of heaps of times
小能量多次冲击
1.
This paper introduces the fatigue strength (fatigue life) test of welded joints of 16MnR, 15MnVN and 18MnMoNb steels under small energy lash of heaps of times.
介绍了 16MnR、15MnVN及 18MnMoNb三种钢焊接接头及母材在小能量多次冲击条件下的疲劳强度 (疲劳寿命 )试验情况。
2) small energy impact
小能量冲击
3) repeated impact
多次冲击
1.
Dynamic mechanical behaviour of reactive powder concrete subjected to repeated impact;
活性粉末混凝土在多次冲击荷载下的力学行为
2.
This paper reviews the research history of repeated impact and describes kinds of failure phenomenon due to the repeated impact load.
本文回顾了多次冲击变形研究的历史,描述了零件因多次冲击载荷引起的各种失效现象,认为这些失效绝大部分源于材料的塑性变形。
4) impact energy
冲击能量
1.
The dynamic impact response behaviors of TiNi alloy at various impact energy and temperature were studied using the simple pendulum impact testing system.
利用单摆冲击试验设备,对TiNi合金不同冲击能量及温度条件下的冲击响应行为进行了研究。
2.
The article describes determination of the characteristic values of impact energy and its use such as steel ductile-brittle transition.
介绍了冲击能量特征值的测定及其在钢的冷脆转变等方面的应用。
3.
the results showed that the life of initial peeling off depending on impact energy and impact frequency,and it is also related to surface roughness.
结果表明,端面起始剥落寿命主要取决于冲击能量和冲击频率,也和端面粗糙度有关。
5) SEMI
[英]['semi] [美]['sɛmɪ]
小能多冲
1.
The microstructure and small energy multi-impact (SEMI) behavior of the transition region between a laser-clad Fe-Albronze coating and its aluminum alloy substrate have been investigated.
在小能多冲作用下,过渡区裂纹形成干脆性相CUAl2富集的区域,激光扫描速度对CUAl2相在过渡区的分布厚度影响显著,进而影响到过渡区的抗小能多冲行为。
6) shock wave energy
冲击波能量
1.
The explosion energy of charge in rock is composed of shock wave energy and gaseous expansion energy.
岩石中装药爆炸后产生的总的爆破能量可以分为爆炸冲击波能量和爆生气体膨胀能量两部分。
2.
It shows that, in rock blasting, the expansion energy of gaseous explosion product, shock wave energy and useless energy are ranged from 50%~60%, 10%~20%, and 20%~30% respectively in the proportion of the total energy.
计算结果表明:岩石中2~#岩石铵梯炸药集中药包爆炸时所产生的爆炸气体膨胀能量、冲击波能量分别占装药总能量的50%~60%和10%~20%,无用能约占20%~30%。
3.
Pressure desensitization degrees were calculated with parameters,such as peak pressure,its logarithm,shock wave energy and total energy of explosion shock wave,which were respectively produced by emulsion explosive before or after desensitization.
分别利用乳化炸药发生压力减敏前后的爆炸冲击波峰压及其对数、冲击波能量和总能量计算压力减敏程度,比较并分析计算结果的优劣。
补充资料:能量沉积产生冲击波
见冲击波产生技术。
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