1) dislocation scatter
位错散射
2) dislocation scattering mobility
位错散射迁移率
3) Shearing speckle
错位散斑
1.
The behavior of the digital shearing speckle fringe formation was discussed systematically with the theory of statistical optics.
用统计光学原理分析了错位散斑条纹的形成机理 ,并把相移技术引入错位散斑之中 ,使该方法不仅具备非接触、高精度和全场实时观测等特点 ,而且也实现了双材料界面粘接质量的定量无损检
4) speckle shearing
散斑错位
1.
In this paper,the double-filtering speckle shearing method used for twist measurement is proposed.
提出两次滤波散斑错位技术。
5) dislocation emission
位错发射
1.
TEM observation of dislocation emission and nano-crack nucleation;
位错发射与纳米裂纹形核的TEM实验观察
2.
The results showed that chemisorption of Hg atoms could facilitate dislocation emission and motion.
结果表明:加载裂纹吸附Hg原子后能促进位错的发射、增殖和运动;当吸附促进位错发射和运动达到临界状态时,脆性微裂纹就在原裂纹顶端或在无位错区中形核并解理扩展。
3.
The results showed that chemisorption of liquid metal atoms could facilitate dislocation emission,multiplication and motioll.
结果表明:液体金属吸附后能促进位错的发射、增殖和运动;当吸附促进位错发射和运动达到临界状态时,脆性微裂纹就在原裂纹顶端或在无位错区中形核并解理扩展。
6) emissary dislocations
发射位错
补充资料:单光束散斑干涉法
见散斑干涉法。
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