应用电化学测试手段,针对20、2Cr13、QAl 9-2、QA l 10-3-15和QAl 10-4-4五种材料试件,分别测定了它们在NaCl溶液中的腐蚀电位及与QAl 9-2偶接时的电偶腐蚀电流的变化.并对几种铝青铜材料和QAl 9-2构成的摩擦副进行了摩擦磨损性能分析.结果表明,铝青铜材料的抗腐蚀性比钢好.其中QAl 10-4-4的腐蚀电位最为偏正,但它与QAl 9-2配副会对QAl 9-2产生较大的阳极电偶腐蚀;QAl 9-2与QAl 9-2相配时的电偶腐蚀最小,但其摩擦相溶性最差;而QAl 9-2与QAl 10-3-15材料副的抗电偶腐蚀能力和摩擦相溶性均佳.
Corrosion potentials of steels 20,2Cr13,bronze alloys QAl 9-2,QAl 10-3-1.5 and QAl 10-4-4 in NaCl solution,and their corrosion currents during coupling with bronze alloy QAl 9-2 were measured by electrochemical methods.Then the friction and wear characteristics were analyzed for rubbing pairs made by QA19 with those bronze alloys seperatively.Test results reveal that the anti-corrosion properties of bronze alloys are better than that of steels. Although QAl 10-4-4 is the most electropositive material among the bronze alloys,it will result in a greater galvanic corrosion of anode QAl 9-2 when they coupled.The galvanic corrosion for QAl 9-2/ QAl 9-2 pair is the smallest,but its friction compatibility is the worst.Both the anti-galvanic-corrosion property and the friction compatibility are good for QAl 9-2/QAl 10-3-1.5 pair.
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