为了满足结构件的一体式、轻量级以及专属定制的要求,笔者对激光熔化沉积(laser metal deposition,LMD)成形Al-12Si合金激光工艺参数进行了摸索,优化激光成形参数;在此基础之上,开展激光熔化沉积成形实验,通过金相分析、扫描电子显微镜(...为了满足结构件的一体式、轻量级以及专属定制的要求,笔者对激光熔化沉积(laser metal deposition,LMD)成形Al-12Si合金激光工艺参数进行了摸索,优化激光成形参数;在此基础之上,开展激光熔化沉积成形实验,通过金相分析、扫描电子显微镜(scanning electron microscope,SEM)等表征手段对激光熔化沉积制备Al-12Si合金显微组织进行表征。结果表明:在激光功率700~800 W、激光扫描速度为300~360 mm/min的工艺参数下能够获得高度致密的Al-12Si合金。激光熔化沉积Al-12Si合金成形工艺的研究旨在克服传统制造方式的局限性,通过科学的方法优化工艺参数并改善成形质量,最终获得高质量且性能优异的Al-12Si合金部件。展开更多
The microstructure and mechanical properties of near-eutectic Al-12 Si alloys modified with 0-0.4% Nd(mass fraction) were investigated. The results indicate that a submicro- or nano-sized Al2 Nd phase is observed in...The microstructure and mechanical properties of near-eutectic Al-12 Si alloys modified with 0-0.4% Nd(mass fraction) were investigated. The results indicate that a submicro- or nano-sized Al2 Nd phase is observed in the modified alloy with 0.3% Nd. The morphology of the α(Al) phase is significantly refined in the Nd-modified alloys. The primary Si morphology simultaneously changes into a fine, particle-like morphology, and the morphology of eutectic Si becomes fine-fibrous instead of coarse-acicular. Relatively few growth twins are observed on the surface of the Si plate in the Al-12Si-0.3Nd alloy at the optimal modification level. The mechanical property test results confirm that the mechanical properties of the as-cast Al-12 Si alloys are enhanced after the Nd addition, with optimal ultimate tensile strength(UTS) of 252 MPa and elongation(EL) of 13% at an Nd content of 0.3%. The improved mechanical properties are attributed to the refined morphology of Si phase and the formation of the Al2 Nd phase.展开更多
文摘为了满足结构件的一体式、轻量级以及专属定制的要求,笔者对激光熔化沉积(laser metal deposition,LMD)成形Al-12Si合金激光工艺参数进行了摸索,优化激光成形参数;在此基础之上,开展激光熔化沉积成形实验,通过金相分析、扫描电子显微镜(scanning electron microscope,SEM)等表征手段对激光熔化沉积制备Al-12Si合金显微组织进行表征。结果表明:在激光功率700~800 W、激光扫描速度为300~360 mm/min的工艺参数下能够获得高度致密的Al-12Si合金。激光熔化沉积Al-12Si合金成形工艺的研究旨在克服传统制造方式的局限性,通过科学的方法优化工艺参数并改善成形质量,最终获得高质量且性能优异的Al-12Si合金部件。
基金Projects(5140521651165032)supported by the National Natural Science Foundation of China+3 种基金Project(20151BAB216018)supported by the Natural Science Foundation of Jiangxi ProvinceChinaProject(GJJ14200)supported by the Education Commission Foundation of Jiangxi ProvinceChina
文摘The microstructure and mechanical properties of near-eutectic Al-12 Si alloys modified with 0-0.4% Nd(mass fraction) were investigated. The results indicate that a submicro- or nano-sized Al2 Nd phase is observed in the modified alloy with 0.3% Nd. The morphology of the α(Al) phase is significantly refined in the Nd-modified alloys. The primary Si morphology simultaneously changes into a fine, particle-like morphology, and the morphology of eutectic Si becomes fine-fibrous instead of coarse-acicular. Relatively few growth twins are observed on the surface of the Si plate in the Al-12Si-0.3Nd alloy at the optimal modification level. The mechanical property test results confirm that the mechanical properties of the as-cast Al-12 Si alloys are enhanced after the Nd addition, with optimal ultimate tensile strength(UTS) of 252 MPa and elongation(EL) of 13% at an Nd content of 0.3%. The improved mechanical properties are attributed to the refined morphology of Si phase and the formation of the Al2 Nd phase.