Casting fabrication of in situ Al_3Ti-Al composites and their wear behaviors 被引量：6

Casting fabrication of in situ Al_3Ti-Al composites and their wear behaviors

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摘要 The Al3Ti intermetallic reinforced pure Al,Al-13Si and Al-17Cu matrix composites were prepared by casting method.Their microstructures and dry sliding wear behaviors at room temperature and 100℃were particularly investigated.The results indicated that the Al3Ti phases in these composites were all in flaky form.But the aspect ratio of the Al3Ti platelets decreased with the increase of Ti content in the pure Al,Al-Cu and Al-Si matrix composites,in order of effectiveness.The effect of Si on the Al3Ti morphology seemed to be greater than that of Cu.The distributions of the Al3Ti platelets were different in the different matrix composites,leading to different grain refining effects.Except for the sub-wear regime of adhesive wear,the plastic deformation induced wear was a dominant wear mechanism for all of the composites at room temperature and 100℃.Increasing the testing temperature,decreasing the Al3Ti content or the hardness of materials could enhance these two wear mechanisms,and thus increase the wear rate.The Al-Cu matrix composite had the best wear resistance,while the pure Al matrix composite showed the worst for the same Ti content.These differences or changes were attributed to the differences in materials'hardness or the strengthening effects of the Al3Ti platelets. The Al3Ti intermetallic reinforced pure Al, Al-13Si and Al-17Cu matrix composites were prepared by casting method. Their microstructures and dry sliding wear behaviors at room temperature and 100℃ were particularly investigated. The results indicated that the Al3Ti phases in these composites were all in flaky form. But the aspect ratio of the Al3Ti platelets decreased with the increase of Ti content in the pure Al, Al-Cu and Al- Si matrix composites, in order of effectiveness. The effect of Si on the Al3Ti morphology seemed to be greater than that of Cu. The distributions of the Al3Ti platelets were different in the different matrix composites, leading to different grain refining effects. Except for the sub-wear regime of adhesive wear, the plastic deformation induced wear was a dominant wear mechanism for all of the composites at room temperature and 100℃. Increasing the testing temperature, decreasing the Al3Ti content or the hardness of materials could enhance these two wear mechanisms, and thus increase the wear rate. The Al-Cu matrix composite had the best wear resistance, while the pure Al matrix composite showed the worst for the same Ti content. These differences or changes were attributed to the differences in materials＇ hardness or the strengthening effects of the Al3Ti platelets.

作者 Chen Tijun Li Jian Hao Yuan

机构地区 Key Laboratory of Gansu Advanced Nonferrous Materials School of Material Science and Engineering

出处《China Foundry》 SCIE CAS 2009年第4期319-327,共9页 中国铸造（英文版）

基金 supported by the Development Program for Outstanding Young Teachers in Lanzhou University of Technology

关键词 in situ Al3Ti-Al composite CASTING MICROSTRUCTURE wear resistance wear mechanism

分类号 TG146.21 [金属学及工艺—金属材料] TB331 [一般工业技术—材料科学与工程]

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共引文献6

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引证文献6

1文荣,赵玉涛,钟龙华.低频电磁场对原位合成Al_3Ti/Al复合材料凝固组织的影响[J].功能材料,2013,44(9):1244-1248. 被引量：2
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