1) strain relaxation
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应变弛豫
1.
The results indicated that the composite showed quite different strain relaxation before" general" microyielding and its microyield mechanism was not same as that of the matrix alloy.
对SiCp/2024A1复合材料及其基体2024A1合金的微屈眼行为和热处理的影响进行了详细的比较研究结果表明,由于SiC颗粒的作用,复合材料在微屈服前即已产生明显的应变弛豫,并且其微屈服行为也与铝合金不同在时效处理中,两种材料的微屈服强度均受时效强化相析出规律的控制,表现出“峰时效”现象;而冷热循环处理能改善2024A1的微屈服性能,但却对SiCp/2024A1的微屈服强度不
2.
In this paper,the stability of strained MQWs in laser structure is discussed in terms of the calculation of net stress and strain relaxation.
通过计算应变多量子阱中的净应力和应变弛豫,讨论了激光器结构中应变多量子阱的稳定性。
2) shear strain relaxation
![点击朗读](/dictall/images/read.gif)
切应变弛豫
1.
For the film with a thickness of 22 nm or above,there is both a modified monoclinic structure (MA),and the shear strain relaxation can induce domain ordering and in-plane superlattice in the LSMO films.
对厚度大于(或等于)22nm的LSMO薄膜既显示可调制的单斜(MA)结构,也包含切应变弛豫诱导的有序畴结构和平面内超格子。
3) stress relaxation
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应力弛豫
1.
Stress-strain behavior of butadiene rubber/organomontmorillonite nanocomposites Ⅱ.Stress softening effect and stress relaxation;
顺丁橡胶/有机蒙脱土纳米复合材料的拉伸应力-应变行为 Ⅱ.应力软化效应及应力弛豫
2.
The stress relaxation behavior of(EPDM) vulcanizate was also researched.
![点击朗读](/dictall/images/read.gif)
考察了过氧化二异丙苯(DCP)用量和MAA用量对EPDM硫化性能和物理机械性能的影响,研究了硫化胶的应力弛豫行为。
3.
Furthermore, the stress-strain curves and stress relaxation behavior of EPDM vulcanizates was also studied.
此外,还对EPDM的应力-应变曲线和应力弛豫行为进行了研究。
4) relaxation effect
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弛豫效应
1.
In the calculations, the relaxation effect caused by photoionization of electrons was included.
计算中详细考虑了光电离过程中的弛豫效应。
5) strain relaxation
![点击朗读](/dictall/images/read.gif)
应力弛豫
1.
The effect of radiation induced strain relaxation on electric performance of Al_mGa_(1-m) N/GaN HEMT;
辐射感生应力弛豫对Al_mGa_(1-m)N/GaN HEMT电学特性的影响
2.
The study of the strain relaxation in ultrathin CMR films is important to the understanding of CMR materials and their applications.
锰氧化物庞磁电阻材料超薄膜的应力弛豫特性的研究对理解这一强关联体系的特性及应用都具有重要的意义。
6) phase relaxation
![点击朗读](/dictall/images/read.gif)
相变弛豫
补充资料:“质子-电子偶极-偶极”质子弛豫增强
“质子-电子偶极-偶极”质子弛豫增强
物理学术语。原子核外层中不成对的电子质量小,但磁动性很强,可使局部磁场波动增强,促使氢质子弛豫加快,从而使T1和T2缩短,这种效应即为PEDDPRE。过渡元素和镧系元素大部分在d和f轨道有多个不成对电子,所以其离子往往具有PEDDPRE,可用来作顺磁性对比剂,如钆(Gd)。Gd在外层有7个不成对电子,具有很强的顺磁性。
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