This paper presents the development of a modified tool steel (X30CrMnMoN13-3-1) specifically designed for defect-free processing via laser powder bed fusion (LPBF) without requiring complex machine modifications. The research addresses the dual challenge of carbon-containing tool steels in additive manufacturing: maintaining wear resistance while preventing cracking. Through optimization of the alloying system—particularly with carbon, nitrogen, chromium, molybdenum, and manganese—and the use of moderate preheating (150 °C), the authors achieved crack-free components with hardness levels up to 57 HRC after appropriate heat treatment.

additive manufacturing, corrosion resistance, laser powder bed fusion, martensitic transformation, surface hardening, tool steel, wear resistance
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2025
ASM International
Topics
Tool steel Additive manufacturing Powder bed fusion Surface hardening Wear resistance Martensitic transformation
Issue Section:
Novel Processes: Hybrid Manufacturing, Laser Processing, Additive Manufacturing and Repair