Investigations on Case Hardening of an Additive Manufactured Steel 20MnCr5 (via PBF-LB/M)

IF 0.3 Q4 THERMODYNAMICS HTM-Journal of Heat Treatment and Materials Pub Date : 2023-08-01 DOI:10.1515/htm-2023-0011
S. Mallow, M. Schmitt, M. Gebauer, R. Stockburger, M. Reich, O. Kessler
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Abstract

Abstract As an additive manufacturing process, powder bed fusion of metals using a laser beam (PBF-LB/M) enables the near-net-shape production of complex components in a single step. In combination with case hardening, it will thus be possible in the future to produce lightweight, functionally integrated transmission components characterized by high-strength surface layers with a sufficiently tough component core. However, the process-related new initial conditions resulting from very high solidification rates in PBF-LB/M may mean that case hardening of PBF-LB/M materials with standard parameters achieves different case hardening results than have been usual in the past. This hypothesis was investigated in the present work using the case hardening steel 20MnCr5 (material number 1.7147) after successful development of industry-relevant PBF-LB/M parameters. Besides the convincing results regarding microstructure, hardness and carbon depth profiles, case hardening with standard parameters led to irregular grain growth due to holding at high temperatures for several hours during carburization.
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增材制造20MnCr5钢的表面硬化研究(PBF-LB/M)
作为一种增材制造工艺,使用激光束(PBF-LB/M)进行金属粉末床熔合,可以在单一步骤中实现复杂部件的近净形状生产。结合表面硬化技术,未来将有可能生产出重量轻、功能集成的传动部件,其特点是具有高强度表面层和足够坚韧的组件芯。然而,由于PBF-LB/M中非常高的凝固速率而产生的与工艺相关的新初始条件可能意味着使用标准参数的PBF-LB/M材料的表面硬化获得的表面硬化结果与过去通常的硬化结果不同。在成功开发了行业相关的PBF-LB/M参数后,本工作使用20MnCr5(材料号1.7147)进行了这一假设的研究。除了在微观组织、硬度和碳深度剖面方面有令人信服的结果外,在渗碳过程中,由于在高温下保温数小时,采用标准参数的淬火导致了不规则的晶粒生长。
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CiteScore
1.50
自引率
33.30%
发文量
43
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