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Single track and single layer formation in selective laser melting of niobium solid solution alloy 被引量:7

Single track and single layer formation in selective laser melting of niobium solid solution alloy
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摘要 Selective laser melting(SLM) was employed to fabricate Nb-37 Ti-13 Cr-2 Al-1 Si(at%)alloy, using pre-alloyed powders prepared by plasma rotating electrode processing(PREP). A series of single tracks and single layers under different processing parameters was manufactured to evaluate the processing feasibility by SLM, including laser power, scanning speed, and hatch distance.Results showed that continuous single tracks could be fabricated using proper laser powers and scanning velocities. Both the width of a single track and its penetration depth into a substrate increased with an increase of the linear laser beam energy density(LED), i.e., an increase of the laser power and a decrease of the scanning speed. Nb, Ti, Si, Cr, and Al elements distributed heterogeneously over the melt pool in the form of swirl-like patterns. An excess of the hatch distance was not able to interconnect neighboring tracks. Under improper processing parameters, a balling phenomenon occurred, but could be eliminated with an increased LED. This work testified the SLMprocessing feasibility of Nb-based alloy and promoted the application of SLM to the manufacture of niobium-based alloys. Selective laser melting(SLM) was employed to fabricate Nb-37 Ti-13 Cr-2 Al-1 Si(at%)alloy, using pre-alloyed powders prepared by plasma rotating electrode processing(PREP). A series of single tracks and single layers under different processing parameters was manufactured to evaluate the processing feasibility by SLM, including laser power, scanning speed, and hatch distance.Results showed that continuous single tracks could be fabricated using proper laser powers and scanning velocities. Both the width of a single track and its penetration depth into a substrate increased with an increase of the linear laser beam energy density(LED), i.e., an increase of the laser power and a decrease of the scanning speed. Nb, Ti, Si, Cr, and Al elements distributed heterogeneously over the melt pool in the form of swirl-like patterns. An excess of the hatch distance was not able to interconnect neighboring tracks. Under improper processing parameters, a balling phenomenon occurred, but could be eliminated with an increased LED. This work testified the SLMprocessing feasibility of Nb-based alloy and promoted the application of SLM to the manufacture of niobium-based alloys.
出处 《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2018年第4期860-866,共7页 中国航空学报(英文版)
基金 supported by the National Natural Science Foundation of China (Nos. 51471013 and 51571004)
关键词 Additive manufacturing Melt pool Niobium alloy Powder metallurgy Selective laser melting Additive manufacturing Melt pool Niobium alloy Powder metallurgy Selective laser melting
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