Additive manufacturing of duplex stainless steel by DED-LB/M and PBF-LB/M – process-material-property relationships

Andreas Maier, Manuel Rühr, Katja Tangermann-Gerk, Marcel Stephan, S. Roth, Michael Schmidt
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Abstract

Purpose Additive manufacturing (AM) of duplex stainless steels (DSS) is still challenging in terms of simultaneously generating structures with high build quality and adequate functional properties. This study aims to investigate comprehensive process-material-property relationships resulting from both laser-directed energy deposition (DED-LB/M) and laser powder bed fusion (PBF-LB/M) of DSS 1.4462 in as-built (AB) and subsequent heat-treated (HT) states. Design/methodology/approach Cuboid specimens made of DSS 1.4462 were generated using both AM processes. Porosity and microstructure analyses, magnetic-inductive ferrite and Vickers hardness measurements, tensile and Charpy impacts tests, fracture analysis, critical pitting corrosion temperature measurements and Huey tests were performed on specimens in the AB and HT states. Findings Correlations between the microstructural aspects and the resulting functional properties (mechanical properties and corrosion resistance) were demonstrated and compared. The mechanical properties of DED-LB/M specimens in both material conditions fulfilled the alloy specifications of 1.4462. Owing to the low ductility and toughness of PBF-LB/M specimens in the AB state, a post-process heat treatment was required to exceed the minimum alloy specification limits. Furthermore, the homogenization heat treatment significantly improved the corrosion resistance of DED- and PBF-processed 1.4462. Originality/value This study fulfills the need to investigate the complex relationships between process characteristics and the resulting material properties of additively manufactured DSS.
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通过 DED-LB/M 和 PBF-LB/M 对双相不锈钢进行增材制造--工艺-材料-属性关系
目的双相不锈钢(DSS)的快速成型制造(AM)在同时生成具有高制造质量和适当功能特性的结构方面仍面临挑战。本研究旨在研究激光定向能量沉积(DED-LB/M)和激光粉末床熔融(PBF-LB/M)在 DSS 1.4462 的坯料(AB)和后续热处理(HT)状态下产生的综合工艺-材料-性能关系。在 AB 和 HT 状态的试样上进行了孔隙率和微结构分析、磁感应铁素体和维氏硬度测量、拉伸和夏比冲击试验、断裂分析、临界点蚀温度测量和休伊试验。研究结果微结构方面与所产生的功能特性(机械特性和耐腐蚀性)之间的相关性得到了证明和比较。两种材料状态下 DED-LB/M 试样的机械性能均符合 1.4462 的合金规格。由于 AB 状态下 PBF-LB/M 试样的延展性和韧性较低,因此需要进行后加工热处理,以超过最低合金规格限制。此外,均匀化热处理显著提高了 DED 和 PBF 加工的 1.4462 的耐腐蚀性。
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