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Literature DB >> 29115290

Additively manufactured hierarchical stainless steels with high strength and ductility.

Y Morris Wang¹, Thomas Voisin¹, Joseph T McKeown¹, Jianchao Ye¹, Nicholas P Calta¹, Zan Li¹, Zhi Zeng², Yin Zhang², Wen Chen³, Tien Tran Roehling¹, Ryan T Ott⁴, Melissa K Santala⁵, Philip J Depond¹, Manyalibo J Matthews¹, Alex V Hamza¹, Ting Zhu².

Abstract

Many traditional approaches for strengthening steels typically come at the expense of useful ductility, a dilemma known as strength-ductility trade-off. New metallurgical processing might offer the possibility of overcoming this. Here we report that austenitic 316L stainless steels additively manufactured via a laser powder-bed-fusion technique exhibit a combination of yield strength and tensile ductility that surpasses that of conventional 316L steels. High strength is attributed to solidification-enabled cellular structures, low-angle grain boundaries, and dislocations formed during manufacturing, while high uniform elongation correlates to a steady and progressive work-hardening mechanism regulated by a hierarchically heterogeneous microstructure, with length scales spanning nearly six orders of magnitude. In addition, solute segregation along cellular walls and low-angle grain boundaries can enhance dislocation pinning and promote twinning. This work demonstrates the potential of additive manufacturing to create alloys with unique microstructures and high performance for structural applications.

Entities: Chemical

Year: 2017 PMID： 29115290 DOI： 10.1038/nmat5021

Source DB: PubMed Journal: Nat Mater ISSN： 1476-1122 Impact factor: 43.841

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