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bond-interface
相关语句
  粘结面
     Research to shearstrength of bond-interface between concrete and masonry
     后浇混凝土与砖砌体粘结面抗剪强度的试验研究
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  “bond-interface”译为未确定词的双语例句
     The shearstrength of bond-interface between concrete and masonry is cratical problem in desigh of strengthing masonry structure.
     后浇混凝土与砖砌体粘结面的抗剪强度在砖砌体结构维修、加固改造的设计中是不可缺少的强度指标。
短句来源
  相似匹配句对
     Factors of Influencing the Bond Characteristics at Interface
     界面粘接性能的影响因素
短句来源
     Microstructure Characteristics at the Ultrasonic Bond Interface
     热声键合界面的微观结构特性
短句来源
     Bond-slip model for FRP-to-concrete interface
     FRP-混凝土界面粘结滑移本构模型
短句来源
     Research to shearstrength of bond-interface between concrete and masonry
     后浇混凝土与砖砌体粘结面抗剪强度的试验研究
短句来源
     Interface stress element model for bond-slip problems
     粘结滑移问题的界面应力元模型
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The surface structure of glass fiber treated with different silane coupling such as A151, A186, KH550, and the diffusivity of medium in epoxy/glass composite material as well as the adhesive shape of interface have been studied by means of SEM, Single Filament Test, XPS and Specific resistance. The results show that interface with covalent bond reacted with-SiOH both on the surface of glass and in the epoxy matrix is better than that without covalent bond. This type of covalent bond interface had: a) stronger...

The surface structure of glass fiber treated with different silane coupling such as A151, A186, KH550, and the diffusivity of medium in epoxy/glass composite material as well as the adhesive shape of interface have been studied by means of SEM, Single Filament Test, XPS and Specific resistance. The results show that interface with covalent bond reacted with-SiOH both on the surface of glass and in the epoxy matrix is better than that without covalent bond. This type of covalent bond interface had: a) stronger interface adhesion; b) a good shape of interface adhesion; c) lower diffusivity of medium in composite materials; and d) good corrosion-resistant properties of interface.

本文作者采用XPS,单丝模型,SEM和测定电阻率等方法研究了玻纤表面以A-151、A-186 KH550偶联剂处理后形成的界面层结构;介质在环氧/玻纤复合材料中的扩散系数;界面的粘结形貌等对复合材料耐蚀性能的影响。实验表明,既能与玻纤表面产生化学反应又能与环氧基体形成化学共价键的界面具有较高的界面粘结能,完善的界面粘结形貌,较低的介质扩散系数和良好的界面耐腐蚀性。

Studies the bond interfaces in a cast-iron based com positc material with granular SiC ceramics, which was processed through spun-in casting, by means of metallography, SEM and image microanalyzer, etc. The result indicates that the granular ceramics are distributed uniformly in the matrix cast-iron with a content up to 23%-32%. No element enrichment and reaction products were found at the interfaces between granular ceramics and the matrix. However, if heating the composite material up to 900℃ then holding...

Studies the bond interfaces in a cast-iron based com positc material with granular SiC ceramics, which was processed through spun-in casting, by means of metallography, SEM and image microanalyzer, etc. The result indicates that the granular ceramics are distributed uniformly in the matrix cast-iron with a content up to 23%-32%. No element enrichment and reaction products were found at the interfaces between granular ceramics and the matrix. However, if heating the composite material up to 900℃ then holding it for 180 minutes, a few of SiC ceramics will begin dissolving and silicon will diffuse toward the matrix. Carbon will thus be enriched around granular ceramics.It is proved that such a composite material has wearability 40 times as larger as conventional spun-inca st iron.

利用金相显微镜、扫描电镜和图像分析仪等检测手段,研究了离心渗铸铁基陶瓷颗粒复合材料的结合界面。结果表明:粒子在基体中分布均匀,粒子含有率可达23%—32%;粒子与基体界面无元素富集,无反应产物,但加热至 900℃,保留 180 min后,SiC 开始有少量分解,Si 向基体方向扩散,C 在粒子周围富集;复合材料比基体材料耐磨性提高 40倍。

Diffusion bonding of superplastic LC4 AI alloy, with prior surface treatment of organic solution protecting coating Sfter electropolishing and stainless steel wool brushing, was performed by Gleeble test machine under conditions ranged 490—530℃, 1.0 —3.0 MPa, 30—180 min and vacuum of 1.0×10~-3 Pa. The joints were examined to have similar strength and microstructure to the base metal. Discussion was made on the effect of superplastic treatment on bonding. The micromechanism for diffusion bonding of superplastic...

Diffusion bonding of superplastic LC4 AI alloy, with prior surface treatment of organic solution protecting coating Sfter electropolishing and stainless steel wool brushing, was performed by Gleeble test machine under conditions ranged 490—530℃, 1.0 —3.0 MPa, 30—180 min and vacuum of 1.0×10~-3 Pa. The joints were examined to have similar strength and microstructure to the base metal. Discussion was made on the effect of superplastic treatment on bonding. The micromechanism for diffusion bonding of superplastic metal was suggested as the migration of original bond interfaces caused by atomic diffusion and grain growth. Experimental results for the alloy as quench-aged state were presented to compare with the superplastic one.

采用电化学机械处理加有机溶液保护膜的表面处理方法,在Gleeble 1500试验机上进行了超塑状态LC4 Al合金的扩散焊接。焊接工艺条件为:温度490—530℃,压力1.0—3.0MPa,时间30—180min,真空度1×10~(-3)Pa。获得了与基体一致的接头强度和接头显微组织。讨论了合金的超塑处理对焊接过程的影响,提出超塑状态下扩散焊接的微观机制为原子扩散和晶粒生长造成的原始界面的迁移。作为比较,文中还给出了该合金淬火时效状态试样的焊接结果。

 
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