1) strain amplitude
应变幅
1.
Low cycle fatigue characteristic of 16MnR under stress control at elevated Temperature is investigated, relations between young's modulus, total strain amplitude, cyclic hysteresis energy and cycles, magnitude of stress is discussed to understand behavior of stress-strain at elevated temperature.
研究 16MnR材料 30 0℃环境下的低周疲劳特性 ,讨论材料中温环境下弹性模量、总应变幅、塑性应变能与循环次数和应力水平的关系 ,深入认识 16MnR材料中温环境下低周疲劳的应力应变行为。
2.
Straining electrode technique has been utilized to study the effects of strain amplitude, strain rate and applied potential on electrochemical corrosion process of defoming metals.
采用应变电极技术研究了应变幅、应变速率与外加电位对形变中金属电化学腐蚀过程的影响。
3.
The other way reaches the fatigue life by the strain amplitude of the fatigue hot-spot which is observed by material s strain amplitude-life curves.
一种是现在应用比较广泛的首先计算应力强度因子,然后利用PAIRS裂纹扩展速率公式来计算;另一种是首先求得材料的应变幅-寿命曲线,然后根据实际结构中疲劳热点处的应变幅来计算疲劳寿命。
2) strain amplitude
应变振幅
1.
Influence of different boundary conditions and strain amplitudes on the structural internal friction of anisotropic laminated damped structures;
不同边界条件和应变振幅对各向异性层合阻尼结构内耗的影响
2.
Influences of strain amplitude on damping capacity of SiC_p/Al composite;
SiC_p/Al室温阻尼性能与应变振幅的相关性
3.
According to endochronic theory, the relationship between attenuation and strain amplitude of rock samples can be briefly at intermediate strain levels by introducing an inelastic parameter α.
根据内时理论,简要推导了在中等应变条件下,岩石衰减与应变振幅的用非弹性参数α表示的具体关系式。
3) plastic strain amplitude
应变幅值
4) stress variation
应力变幅
1.
By using a computer code specifically developed for externally prestressed concrete bridges, the stress variations in the external tendons of several typical spans are analyzed.
利用研发的体外预应力混凝土桥梁结构弹性阶段非线性分析专用程序 ,对几种典型跨径体外预应力混凝土梁桥的体外预应力钢束在汽车活载作用下的应力变幅进行分析。
5) strain amplitude
应变幅度
6) variable amplitude stress
变幅应力
1.
Therefore the fatigue damage of this steel under variable amplitude stress can\'t be evaluated based on the stress linear cumulate damage rule.
中碳车轴用钢的旋转弯曲疲劳实验结果表明,在其疲劳极限以上,应力-寿命数据满足三参数曲线关系,因此,其变幅应力作用下的疲劳损伤不能使用基于应力的线性累积损伤法则评估。
补充资料:百幅被
1.极大的被。
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