选择性激光熔化
材料科学
近净形状
多孔性
机械加工
航空航天
铝
比模量
复合材料
工艺工程
汽车工业
微观结构
过程(计算)
冶金
机械工程
复合数
计算机科学
航空航天工程
法学
工程类
操作系统
政治学
作者
Nesma T. Aboulkhair,Nicola M. Everitt,Ian Ashcroft,Christopher Tuck
标识
DOI:10.1016/j.addma.2014.08.001
摘要
Selective laser melting (SLM) is widely gaining popularity as an alternative manufacturing technique for complex and customized parts. SLM is a near net shape process with minimal post processing machining required dependent upon final application. The fact that SLM produces little waste and enables more optimal designs also raises opportunities for environmental advantages. The use of aluminium (Al) alloys in SLM is still quite limited due to difficulties in processing that result in parts with high degrees of porosity. However, Al alloys are favoured in many high-end applications for their exceptional strength and stiffness to weight ratio meaning that they are extensively used in the automotive and aerospace industries. This study investigates the windows of parameters required to produce high density parts from AlSi10Mg alloy using selective laser melting. A compromise between the different parameters and scan strategies was achieved and used to produce parts achieving a density of 99.8%.
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