1·The reasons that internal friction is very low and stable are discussed.
讨论了内耗低和稳定的原因。
2·These findings improve the understanding of the mechanism of GB internal friction.
这些发现加深了对晶界内耗机制的认识。
3·The usual internal friction instrument is low-frequency mechanical relaxation instrument.
通常的内耗仪,应为低频力学弛豫谱仪。
4·The progress of study on the alloying of rare earth in steel by internal friction was introduced.
介绍了用内耗方法研究钢中稀土合金化取得的进展;
5·Another is caused by internal friction in soil and external friction between soil and track-plate face.
其二为由土壤内摩擦力及土壤对履带板的外摩擦力所产生的推进力。
6·The analogy between internal friction increment and overstress due to strain-rate sensitivity is clarified.
本文也指出了由于应变率敏感性所引起的内耗增量和过应力的类比性。
7·There have a internal friction in Metal to Insulator (MI) transition region, and the modulus have been changed.
在金属到绝缘转变区域出现了内耗峰,并且模量也出现了变化。
8·This internal friction peak is suggested to be associated with the relaxation process of the unstable interface.
初步认为该内耗峰来源于非稳定界面的弛豫过程。
9·Finally, the effect of the diameter on the cohesion and internal friction angle of coal samples is investigated.
最后讨论了直径对煤样黏聚力和内摩擦角的影响。
10·The results show that this internal friction peak is originated from the relaxation process within the interfaces.
结果表明内耗峰来源于样品中界面的弛豫过程。
1·Extreme type I isn′t equal to be probability distribution of cohesion and internal friction angle of clinosol and residual cohesive soil surrounding rock.
极值I型分布不适宜作为坡残积黏土质围岩黏聚力、内摩擦角的概率分布;
2·The research results provide the reference value for the choice of the cohesion and internal friction Angle of rock samples in the process of geo-engineering design and numerical simulation.
研究结果对于岩土工程设计和数值计算时岩样黏聚力和内摩擦角的选取具有参考价值。
3·Finally, the effect of the diameter on the cohesion and internal friction angle of coal samples is investigated.
最后讨论了直径对煤样黏聚力和内摩擦角的影响。
4·The cohesion and internal friction angle increase with the increase of compaction under the same water content.
在同一含水率下,黏聚力和内摩擦角随试样压实度的增加而增大;
1·This text analysed the influence of steel elastomer material, heat treatment craft to load cell lag error combining internal friction mechanism and practical experience.
本文结合内耗机理及部分实践提出了钢弹性体材料处理、热处理工艺对传感器滞后误差的影响分析。
2·The usual internal friction instrument is low-frequency mechanical relaxation instrument.
通常的内耗仪,应为低频力学弛豫谱仪。
3·Fatigue of metals is an energy dissipation process. The main energy dissipation includes the internal friction and the stored energy.
金属疲劳是一个能量耗散过程,其中主要的能量耗散形式包括内耗热和储能。
4·The results showed that on the yielding plateau, the internal friction did not change with the strain, but increased linearly with the increase of strain rate and varied inversely with frequency.
所得结果表明,在屈服平台上,范性形变过程中内耗基本不变,且其值随范性形变速率的增加和测量频率倒数的增加而线性增加。
5·These findings improve the understanding of the mechanism of GB internal friction.
这些发现加深了对晶界内耗机制的认识。