1)  junction
接界
2)  bonding interface
粘接界面
1.
The present measuring methods of the mechanical properties of the propellant/liner bonding interface are compared.
比较了目前测试推进剂/衬层粘接界面性能的方法。
2.
Three acetone-based wet bonding systems, Gluma One-Bond, Bond-1 and One-Step, were used to bond Chrisma composite resin to dry or moist dentin surface, and the bonding interface was observed with Bio-Rad MRC-1024 laser scanning confocal microcope; Microtensile strengths of different groups were measured with Instro 1 195.
目的研究干燥或湿润的牙本质表面状态对丙酮基粘接剂粘接强度和粘接界面微观结构的影响,并探讨粘接强度和粘接界面微观结构之间的内在联系。
3.
The bonding interface were observed with Bio-Rad MRC-1024 laser scanning confocal microscope and microtensile bonding strengths of different groups were measured with Instro 1195.
目的 :研究干燥或湿润的牙本质表面状态对酒精 -水基粘接剂粘接强度和粘接界面微观结构的影响 ,并探讨粘接强度和粘接界面微观结构之间的内在联系。
3)  welding interface
焊接界面
1.
Properties and welding interface characterization of new-type Au-Ag-Ge brazing alloy;
新型Au-Ag-Ge钎料的性能及焊接界面特征
2.
The SEM and EDS were used in this paper to analysis the welding interface of the specimens of tungsten and copper, copper and stainless steel made by HIP welding.
用扫描电子显微镜和能谱仪对钨和铜以及不锈钢的热等静压焊接试样的焊接界面进行了分析研究。
4)  interface
连接界面
1.
The vacuum warm compaction diffusion method is used to prepare the Al/Cu/0Cr18Ni9Ti composite; electrochemical corrosion is used to gradation etch the Cu and the interface of Al/Cu; and further the scanning electron microscopy(SEM),electron probe microanalysis(EPMA)and X-ray diffractometer(XRD)are used respectively to analyze the gradation etched interface.
采用真空热压扩散连接法制备出冶金结合的钢铜铝复合材料,采用电解腐蚀法对所制备的复合材料从铜侧进行分层腐蚀,并结合扫描电镜(SEM)、能谱分析(EDS)和X射线衍射(XRD)对所腐蚀德连接界面的各个扩散层进行了形貌、成分、相分析。
2.
Both controlling the morphology and type of intermetallic compounds (IMCs) in the soldered interface, and the addition of more alloying elements are the promising ways for exploring high performance lead-free solder and enhancing the reliability of solder joint.
通过进一步添加其他组元、控制连接界面上金属间化合物的形貌及类型,已成为高性能无铅焊料开发和提高焊点可靠性的重要途径。
5)  brazing interface
钎接界面
1.
Study of the dynamic metallurgical behavior of the brazing interface of cobalttungsten insert and steel rod revealed a fact that a poor cobalt belt and a clastic crystalline zone formed on the subsurface of cobalttungsten carbide in the dynamic process of fusion and diffusion, which, in turn, brought about microscopic cracks.
通过钎接界面动态金属学研究,揭示了界面熔解-扩散过程中硬质合金亚表层形成贫钴带和碎晶区从而成为微观裂纹萌发源的事实。
6)  Bonding interface
黏接界面
参考词条
补充资料:接界
交界:这个车站临近两省~的地方。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。