1) bonding force
结合力,焊线强度
2) bond strength
结合强度
1.
Microstructure and bond strength of the interface formed between titanium and steel bv diffusion;
钛-钢扩散复合界面组织与结合强度
2.
Study on bond strength of several precious alloys and Ni - Cr alloys to porcelain;
不同种类贵金属合金与镍铬合金的金瓷结合强度分析
3.
Study on the Effect of Gold-Porcelain Blended Layer on Bond Strength of Porcelain Fused to Ni-Cr Alloy;
金瓷混合涂层对镍铬合金基底烤瓷冠金瓷结合强度影响的研究
3) bonding strength
结合强度
1.
Bonding Strength of TiN Plated Pure Ti and Solidex;
纯Ti镀制TiSiN薄膜后与Solidex结合强度的研究
2.
Bonding Strength of Cast Cu Stave with Inner Cast Steel Pipe;
高炉铸铜冷却壁Cu-Fe结合强度的试验研究
3.
Effect of the pulse frequency on bonding strength of micro-arc oxidation coatings of titanium alloy/epoxy resin;
脉冲频率对钛合金微弧氧化膜/环氧树脂结合强度的影响
4) adhesion strength
结合强度
1.
Studying on adhesion strength of protection coating on concrete structure surface;
混凝土表面防护涂层的结合强度研究
2.
Research on methodology of measurement for the adhesion strength between AgCu/Ti sunstrate and bilayer films;
Ag-Cu/Ti双层膜复合体系结合强度测试方法研究
3.
Assessment of adhesion strength of mechanical galvanizing coating by pull-off test method;
拉开测试法评定机械镀锌层的结合强度
5) adhesive strength
结合强度
1.
Effect of aluminizing and diffusion treatment on adhesive strength of arc-sprayed coatings;
渗铝及扩散处理对电弧喷涂层结合强度的影响
2.
A Study on Adhesive Strength of the Amorphous Electroless Nickel Deposite;
化学镀非晶态Ni-P镀层的结合强度研究
3.
Ni-Al_2O_3 Nano-composite Coating Prepared by Electrophoretic-Electrochemical Deposition and Its Adhesive Strength;
电泳-电沉积Ni-Al_2O_3纳米复合镀层及其结合强度分析
6) adhesion
[英][əd'hi:ʒn] [美][əd'hiʒən]
结合强度
1.
Effects of Heat Treatment on the Internal Stress and Adhesion of Ni-P Coating;
热处理对Ni-P镀层内应力及结合强度的影响
2.
Improving Adhesion for Nickel Electroplating on Aluminum Alloys;
提高铝合金上电镀镍层结合强度的研究
3.
Results indicate that plexiglass protective layers have better adhesion than silicate protective layers;with the increasing of temperature and holding time,adhesion of silicate protective layers is going up at first and then down,while that of plexiglass rises at first and then don't change;cooling mode has great influence on adhesion of silicate protective layers,while it has no impact on.
结果表明:有机玻璃防护层的结合强度较硅酸盐玻璃的高;随着制备温度和保温时间的增加,硅酸盐玻璃防护层的结合强度先上升后下降,而有机玻璃防护层的结合强度上升后不再变化。
补充资料:结合力
结合力
两种物质起反应,结合在一起生成另一种物质的能力。
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