阐述了机械镀锌层的表面质量、结合力及其耐蚀性,提出了机械镀锌的沉积过程模型。通过实验数据及分析加以验证。
Surface quality adhesion to substrate and corrosion resistance of zinc coating of mechanical plating are described. The deposition model is proposed and is confirmed by experimental results.
实践证明,采用恰当的工艺控制方法,可有利于提高机械镀锌层的质量,提高镀锌层的机械性能。
The practice proved that, using the appropriate Craft control method, is advantageous in enhancing the Coating quality and the Mechanical property.
钎料作为能量转换体,可有效降低电弧加热区域内镀锌板的温度,使镀锌层破坏较少。
As a conversion medium, the filler metal effectively decreases the temperature of galvanized sheet within the heating zone, reducing the destroyed area of Zinc.
研究了钢丝拉镀锌生产中影响镀锌层耐蚀性的各种因素,并提出可采取的一些具体措施。
Factors influencing corrosion resistance of galvanized steel-wire in continuous plating process and measurements to be taken were described.
结果表明,纳米镀锌层较微米镀锌层腐蚀电流密度增加,纳米镀锌层的电化学腐蚀行为存在纳米尺寸效应。
The results showed that the corrosion current density of nanometer zinc plate was increased and there existed nanometer - sized effect.
探讨了镀锌层钛盐溶液钝化替代传统的铬酸盐镀锌层蓝色钝化的工艺和形成蓝色钝化膜的机理。
Passivation technology on electrodeposited zinc in titanium solution was provided as an alternative treatment to chromate blue passivation.
通过电镀的方法制备了不同晶粒尺寸的纳米镀锌层和微米镀锌层。
Different crystalline-sized nanometer and micrometer zinc plates were prepared by electroplating.
镀锌钢因其良好的抗腐蚀性能而广泛应用于各个领域,而镀锌层的存在使得镀锌钢的焊接过程和焊接质量受到不利影响。
Galvanized steel is widely used in industry due to its excellent corrosion resistance. However, the zinc coating greatly reduces the welding process property of galvanized steel.
镀锌钢因其良好的抗腐蚀性能而广泛应用于各个领域,而镀锌层的存在使得镀锌钢的焊接过程和焊接质量受到不利影响。
Galvanized steel is widely used in industry due to its excellent corrosion resistance. However, the zinc coating greatly reduces the welding process property of galvanized steel.
应用推荐