熔体过热处理对亚共晶Al-10Mg<sub>2</sub>Si合金磨损性能的影响

王鑫; 刘祥玲; 牛玉; 杨军; 杨鑫华

doi:10.15980/j.tzzz.2021.01.004

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熔体过热处理对亚共晶Al-10Mg₂Si合金磨损性能的影响
Effects of Melt Superheating Treatment on Wear Properties of Hypoeutectic Al-10Mg₂Si Alloy
2021年41卷第1期页码：22-25
纸质出版日期： 2021 ，
DOI： 10.15980/j.tzzz.2021.01.004

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[1]王鑫,刘祥玲,牛玉,杨军,杨鑫华.熔体过热处理对亚共晶Al-10Mg_2Si合金磨损性能的影响[J].特种铸造及有色合金,2021,41(01):22-25.

Wang Xin, Liu Xiangling, Niu Yu, et al. Effects of Melt Superheating Treatment on Wear Properties of Hypoeutectic Al-10Mg₂Si Alloy[J]. Special Casting & Nonferrous Alloys, 2021,41(1):22-25.
[1]王鑫,刘祥玲,牛玉,杨军,杨鑫华.熔体过热处理对亚共晶Al-10Mg_2Si合金磨损性能的影响[J].特种铸造及有色合金,2021,41(01):22-25. DOI： 10.15980/j.tzzz.2021.01.004.

Wang Xin, Liu Xiangling, Niu Yu, et al. Effects of Melt Superheating Treatment on Wear Properties of Hypoeutectic Al-10Mg₂Si Alloy[J]. Special Casting & Nonferrous Alloys, 2021,41(1):22-25. DOI： 10.15980/j.tzzz.2021.01.004.

摘要

对亚共晶Al-10Mg

Si合金进行熔体过热处理

通过削-盘式摩擦磨损试验研究了显微组织对亚共晶Al-10Mg

Si合金磨损性能的影响。结果表明

熔体过热处理后

初生α-Al相转变为近球状等轴晶

Si相呈纤维状和短杆状均匀分布

且其二次枝晶间距降低了58%

硬度提高了13.5%

同时其磨损速率降低了16.49%。磨屑由合金未经熔体过热处理的推碾薄片状与卷曲状转变为小块粉末状

剥落区面积减小

剥落坑、犁沟和挤压沟槽均变浅。磨损机制由粘着磨损、氧化磨损和磨粒磨损共存转化为以剥层磨损为主

粘着磨损与部分氧化磨损共存的形式

说明熔体过热处理改善了合金的磨损性能。

Abstract

The effects of microstructure on the wear properties of hypoeutectic Al-10Mg

Si alloy after melt superheating treatment were investigated by means of the grinding-disk friction and wear test.The results reveal that the primaryα-Al phase is converted from fishbone to equiaxed structure

and Mg

Si phase is uniformly distributed in fibrous and short rod shape after melt superheat treatment.The secondary dendrite interval of Mg

Si phase is decreased by 58%

and the hardness is increased by 13.5%

meanwhile the wear rate is decreased by 16.49%.The wear debris is changed from push milling flake type and curl type without melt superheating treatment to small powder shape.The wear debris are converted from pull-chip and crimp type without superheating treatment to small powder shape.The spalling area is decreased

and the spalling pit

furrow and extrusion groove become shallow.The wear mechanism is dominated from adhesive wear

oxidation wear and abrasive wear to coexisting of delamination wear

adhesive wear and partial oxidation wear

which indicate that the melt superheating process can improve the wear properties of the alloy.