Abstract:TC11 titanium alloy samples were formed by selective laser melting technology, the effects of laser power
(220-260 W) and exposure time (45-55 μs) on the microstructure and mechanical properties of the samples were
studied. The results show that the laser power and exposure time mainly affect the laser power density during the
forming process, resulting in differences in microstructure and mechanical properties:when the laser power density
increases, the liquid retention time is relatively long, the cooling rate is relatively low, the columnar crystal size is
relatively large, and the martensite lath size increases; When the exposure time is 50 μs and the laser power is increased
to 260 W, the microhardness of SLM forming specimen increases to 437 HV0.3, the tensile strength increases
to 1 463 MPa, and the elongation after fracture decreases to 6.0%; When the laser power is 200W and the exposure
time is increased to 55 μs, the microhardness of SLM formed specimen increases to 404.2 HV0.3, the tensile
strength increases to 1 446 MPa, and the elongation after fracture decreases to 4.8%. When the laser power is 220
W and the exposure time is 50 μs, TC11 titanium alloy with better matching strength and plasticity can be obtained,
and its tensile strength and elongation after fracture are 1 345 MPa and 10.6% respectively.
程宗辉,白 兵,蔡小叶,胡家齐,董定平. 激光功率与曝光时间对选区激光熔化 TC11钛合金组织与力学性能的影响[J]. 粉末冶金工业, 2024, 34(03): 79-84.
CHENG Zonghui,BAI Bing,CAI Xiaoye,HU Jiaqi,DONG Dingping. Effects of laser power and exposure time on microstructure and mechanical properties of selective laser melting of TC11
titanium alloy. Powder Metallurgy Industry, 2024, 34(03): 79-84.