1) ∑3 sub-grain boundary structure
∑3亚晶界结构
1.
The relationship between damage cavity density and percent composition of ∑3 sub-grain boundary structure in material was determined and the predicted result were validated.
利用该方法建立损伤空洞密度与∑3亚晶界结构百分数关系曲线,并对预测的结果进行验证。
2) subgrain structure
亚晶结构
1.
The coarsened subgrain structure in the crept steel decreased their microhardness and their relationship obeyed the Hall-Petch formula.
利用透射电镜(TEM)对不同蠕变态的马氏体Cr钢亚晶结构进行了定量表征,得到了不同蠕变态的亚晶尺寸分布曲线,分析了蠕变过程中亚晶结构的变化特征,以及这些变化对显微硬度的影响。
3) grain boundary
晶界结构
1.
EBSD study of CVD-W grain orientation and grain boundary;
CVD-W晶粒取向和晶界结构的EBSD研究
4) grain boundary structure
晶界结构
1.
The effect of grain boundary structure on secondary working embrittlement (SWE) of IF steels was studied by electron back-scatter diffraction (EBSD) and TEM.
采用电子背散射衍射(EBSD)技术和 TEM技术对 IF钢二次加工脆性与晶界结构之间的关系进行了研究。
2.
The grain boundary structure of SrTiO_3 GBBL (grain boundary barrier layer) capacitors sintered at low temperature in one-step was studied by means of HREM (high resolution electron microscopy).
利用高分辨电镜研究了低温一次烧结SrTiO_3陶瓷晶界层电容器材料的晶界结构,发现在西晶粒间存在着4种典型的晶界类型。
3.
The effect of microstructures and grain boundary structure on properties of ultra-strength Al-Zn-Mg-Cu alloy was briefly discussed.
该文主要介绍国内外高强铝合金的发展历程及最新研究进展,指出Al-Zn-Mg-Cu超强铝合金的研究经历了高强低韧→高强耐蚀→高强高韧耐蚀→超强高韧耐蚀4个发展阶段,认为调控晶界结构及晶界析出相状态已成为目前铝合金研究的重点;简要评述微观组织和晶界结构对超强铝合金性能的影响,并介绍超强铝合金弥散相和形变-热处理工艺的研究现状及其调控晶界结构和晶界析出相状态的原理。
5) submicrocrystalline structure
亚微晶结构
6) subcrystalline structure
亚晶态结构
补充资料:亚晶
subgrain:晶粒之内所存在的、相互间的晶体学取向差很小(<2~3º)的任一小晶块,每个小晶块之内其晶体点阵基本上是规则的。
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