1) interface structure
界面结构
1.
Effects of holding time on interface structure and bonding strength of brazed joint of hydrogenated TC4 titanium alloy;
保温时间对置氢TC4真空钎焊界面结构及连接强度的影响
2.
The interface structure of InAs/GaInSb strained-layer superlattice;
InAs/GaInSb应变层超晶格材料的界面结构
3.
Influence of interface structure on sulfate attack resistance of mortar with low W/C ratio;
界面结构对低水胶比高性能水泥砂浆抗硫酸盐侵蚀性能的影响
2) interfacial structure
界面结构
1.
Pb effect on interfacial structure of SiC_p/Al-1.2Mg-0.6Si-0.1Ti composites;
Pb对SiCp/Al-1.2Mg-0.6Si-0.1Ti复合材料界面结构的影响
2.
Effect of Ti foil thickness on interfacial structure and strength in PTLP bonding of Si_3N_4/Ti/Cu/Ti/Si_3N_4;
Ti箔厚度对Si_3N_4/Ti/Cu/Ti/Si_3N_4部分瞬间液相连接界面结构及强度的影响
3.
For emulsions,interfacial structures,droplet sizes and distribution,and droplet motion and coalescence could be observed and recorded in situ by an integration device including a microscope,a pickup camera,a video tape recorder,and a computer with a gathering image card and a programme.
利用光学显微镜——摄像——录像——计算机图像采集、处理集成系统,可实现对乳状液界面结构,液珠大小及其分布,液珠运动和聚并的动态过程进行实时观测、录像、图像采集和处理。
3) interface microstructure
界面结构
1.
The interface microstructure was analyzed by SEM, EDS and XRD.
通过对Al2 O3/Cu70 Ti2 5 Zr5 /Nb界面结构及接头性能研究 ,旨在进一步揭示Al2 O3/含Ti活性钎料间界面反应机制 ,并为指导工程应用提供最佳工艺参数 。
2.
The interface microstructures were studied by X-ray scattering technique.
用X射线散射的方法研究金属分隔的Py/Cu多层膜的界面结构,采用Ta,Cr,Cu等来分隔Py/Cu多层膜中的Py和Cu。
4) interfacial microstructure
界面结构
1.
The interfacial microstructure and reaction of polycrystalline diamond compacts are investigated using analytical methods, such as SEM,WDS and XRD.
采用SEM、WDS、XRD等分析方法 ,研究了超高压合成的聚晶金刚石复合体 (PDC)的界面结构及界面反应 ,分析了粘结相钴扩散规律及作用机理 ,并对超高压烧结材料的高压物理化学反应过程进行了探
2.
Appropriate process was applied in this paper to braze of graphite to brass and DTA, SEM, EDS were adopted in analyzing interfacial microstructure.
采用Sn-Zn基钎料实现了镀Cu石墨与黄铜之间的钎焊连接,其钎焊接头界面结构组织为:石墨/Cu/ Cu6Sn5/CuSn共晶/SnZn共晶/CuSn共晶/ Cu6Sn5/黄铜。
6) Interfacial microstructure
界面微结构
1.
A Study on the Interfacial Microstructure of Al 2O 3(p)/Al Mg Composites;
Al_2O_3(p)/Al-Mg复合材料界面微结构研究
2.
The interfacial microstructure of SiC fibre reinforced Ti-22AI-23Nb-2Ta alloy com- posite,which was prepared by hot pressing of magnetron sputtering coating precursor wire,was inves- tigated by analytical electron microscopy(AEM).
利用分析电子显微镜(AEM)研究了磁控溅射法+真空热压方法制备的SiC纤维增强Ti-22Al-23Nb-2Ta(原子分数,%)合金复合材料的界面微结构。
补充资料:聚醚醚酮在碳纤维表面形成的界面横晶结构
聚醚醚酮在碳纤维表面形成的界面横晶结构
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