Understanding the effect of pre-sintering scanning strategy on the relative density of Zr-modified Al7075 processed by laser powder bed fusion

IF 4.2 Q2 ENGINEERING, MANUFACTURING Additive manufacturing letters Pub Date : 2024-11-13 DOI:10.1016/j.addlet.2024.100253

Nicolas Nothomb , Ignacio Rodriguez-Barber , María Teresa Pérez-Prado , Norberto Jimenez Mena , Grzegorz Pyka , Aude Simar

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Abstract

Only a limited aluminium material palette is currently available for L-PBF processing, especially for high strength aluminium alloy. Unmodified Al7075 suffers from hot cracking making it nearly impossible to process by L-PBF. Adding some grain refiner to Al7075 solves this issue of hot cracking. However, this alloy still presents difficulties to be processed with densities above 99.5%. In this study, the unconventional pre-sintering scanning strategy is applied to process 99.9% density Al7075+1.8%Zr. For this scanning strategy, each layer is scanned twice with different power, i.e. it is first scanned with half the power selected for the second scan. This specific strategy remelts potential defect generated by the first scan and reduces lack of fusion pores. These two phenomena lead to high density L-PBF Al7075+1.8%Zr and pave the way to higher densities for high strength aluminium alloys.

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了解预烧结扫描策略对激光粉末床熔融技术加工的 Zr 改性 Al7075 相对密度的影响

目前可用于 L-PBF 加工的铝材料种类有限，尤其是高强度铝合金。未改性的 Al7075 会出现热裂纹，因此几乎无法用 L-PBF 加工。在 Al7075 中添加一些晶粒细化剂可以解决热裂纹问题。然而，这种合金仍然难以加工成密度超过 99.5%的产品。本研究采用非常规的烧结前扫描策略来加工密度为 99.9% 的 Al7075+1.8%Zr。采用这种扫描策略时，每一层都要用不同的功率扫描两次，即第一次扫描时选择的功率是第二次扫描功率的一半。这种特殊策略可以消除第一次扫描产生的潜在缺陷，减少熔孔的缺乏。这两种现象导致了高密度 L-PBF Al7075+1.8%Zr 的产生，并为实现更高密度的高强度铝合金铺平了道路。

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