1) strong bound
强结合态
1.
The result showed that the availability of Pb, Cd in the coal ash was low, while their forms were in strong bound with 48.
采用形态连续提取法 ,研究了粉煤灰中重金属Pb、Cd的水溶态、可交换态、碳酸盐结合态、氧化锰结合态以及强结合态的含量。
2) Dynamic adhesion tester
动态结合强度试验机
3) 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
4) 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
5) 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
6) 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
补充资料:结合态
分子式:
CAS号:
性质:水体或土壤中的金属与悬浮物、沉积物或土壤的主要成分发生吸附而结合在一起的化学形态。它是颗粒态的特有形式。金属的可交换态、碳酸盐结合态、铁锰氧化物结合态、成硫化物和有机质结合态等都是常见的这类结合态。铁或锰与有机胶体的结合中会发生离子交换的吸附,也有在微粒表面通过络合、水解或螯合等作用,形成结合态。
CAS号:
性质:水体或土壤中的金属与悬浮物、沉积物或土壤的主要成分发生吸附而结合在一起的化学形态。它是颗粒态的特有形式。金属的可交换态、碳酸盐结合态、铁锰氧化物结合态、成硫化物和有机质结合态等都是常见的这类结合态。铁或锰与有机胶体的结合中会发生离子交换的吸附,也有在微粒表面通过络合、水解或螯合等作用,形成结合态。
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