固相摩擦增材制造技术研究进展及其应用现状

刘海滨, 张迎星, 谢瑞山, 陈树君

Recent Research Progress in Solid-State Friction-Based Additive Manufacturing Technology and Its Current Applications

LIU Haibin, ZHANG Yingxing, XIE Ruishan, CHEN Shujun

表1 固相摩擦增材制造技术的工艺适用材料

Table 1 Applicable materials for solid-state friction-based additive manufacturing technology

Type of material Alloy Aluminum alloy 1XXX, 2XXX[19,44,54,55,84,92,93], 4XXX[49,58], 5XXX[24,33,41,56,90], 6XXX[19,48,59,94], 7XXX[1,25,69,94,95] Magnesium alloy AZ31[8,52,96], WE43[27] Copper alloy Pure copper[18], Cu-Cr-Zr[17] Titanium alloy Ti-6V-4Al[45] Steel H13[34], carbon steel[38,71], 304[97,98], 316L[35,40] Nickel alloy Inconel625[26,42], Inconel718[81] Metal matrix composites Aluminum-based[1,24,31,32,43,51]