2) fretting fatigue
微动疲劳
1.
Electrospark surface strengthening by Mo electrode and shot peening on improving fretting fatigue resistance of Ti alloy;
Mo电极电火花强化与喷丸复合提高Ti合金微动疲劳抗力
2.
Synergistic improving fretting fatigue resistance of Ti alloy at elevated temperature by duplex surface modification;
复合表面改性协同增强Ti合金高温微动疲劳抗力
3.
Estimating fretting fatigue life based fracture mechanics method;
基于断裂力学方法的微动疲劳寿命估算
3) mechanism of sports fatigue
运动疲劳机理
1.
On the mechanism of sports fatigue the following aspects were put forward early or late: 1.
在运动疲劳机理方面先后提出了:1)外周疲劳—肌肉疲劳链;2)收缩和电传导疲劳间关系—突变理论;3)运动类型与疲劳;4)运动疲劳与神经—内分泌—免疫和代谢调节网络。
4) fatigue mechanism
疲劳机理
1.
The “interface control” model of the fatigue mechanism has been suggested, through which the unique fatigue property and the extra phenomenon of reinforcing behavior of fatigue.
提出了“界面控制”疲劳机理分析模型 ,并用此模型合理解释了碳 /碳复合材料优异的抗疲劳性能以及异常的“疲劳强化”现象。
2.
The fatigue mechanism of SNC was studied and the effect factors on the fatigue properties were deeply discussed.
本文在前期研究工作的基础上,采用由超声喷丸纳米化技术处理的316L不锈钢试样,对纳米化前后的试样分别进行了表层显微组织、表层裂纹观察、疲劳试件纵剖面形貌分析、拉伸实验、疲劳试验、扫描电镜SEM观测、残余应力测定、ANSYS有限元模拟等,对表面纳米化疲劳机理进行了研究,并对疲劳性能的影响因素进行了较为细致分析研究,得出的结论如下:1、超声喷丸表面纳米化使组织形貌发生变化,表面晶粒细化。
6) fretting fatigue(FF)
微动疲劳(FF)
补充资料:动微
1.洞察精微。
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