结果表明,镁合金基体的镀前处理对镀层的结合强度至关重要。
Results show the pretreatment of basal body of magnesium alloy is important to the bond strength.
结果可用于镁合金基体鉴别及各成分元素的定性和半定量分析。
The research results of the paper can meet the requirements about qualitative analysis and semi-quantitative analysis of Mg-based alloy.
镁合金与异种合金偶接后,作为阳极被加速腐蚀,腐蚀产物呈龟裂状附着在镁合金基体表面。
AZ31 magnesium alloy was accelerated as anode coupled with dissimilar alloys. The rimous corrosion products sticked to the surface of magnesium alloy.
采用弯曲法、锉刀实验法和划线划格实验3种镀层结合力测试方法,对化学镀镍层与镁合金基体之间结合力的优劣进行了定性评价。
The adhesive force between the coating and the magnesium substrate has been estimated by using bend test, file test, and scribe test.
铝合金和镁合金是基体材料的最佳候选者,而陶瓷颗粒由于具有优异的性能倍受青睐。
Aluminum alloys and magnesium alloys are the best candidates for matrix, while ceramic particulate is in the investigator's good graces due to its excellent properties.
硼酸镁晶须增强镁基复合材料比基体镁合金的蠕变速率低2 ~3个数量级。
The creep rate of the composites is 2 ~ 3 orders lower than that of Mg matrix alloy.
结果表明,所得镀层平整、光亮、致密,与基体结合牢固,可有效保护镁合金免遭腐蚀。
Results showed that a flat, bright, compact plating layer of good bonding with the base metal could be obtained, which can effectively protect Mg alloy from corrosion.
结果表明,复合涂层使基体镁合金的腐蚀电位提高了1.339V,自腐蚀电流密度降低为基体的1/10;
The results show that the corrosion potential improves by 1.339 V. The self-corrosion current density decreases to 1/10 of the AZ91D alloy.
结果表明,复合涂层使基体镁合金的腐蚀电位提高了1.339V,自腐蚀电流密度降低为基体的1/10;
The results show that the corrosion potential improves by 1.339 V. The self-corrosion current density decreases to 1/10 of the AZ91D alloy.
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