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Additive-Manufacturing-Induced Cell Structure in Stainless Steel 316L: 3D Morphology and Formation Mechanism

Xiaobo Wang, Venkata Karthik Nadimpalli, Niels Skat Tiedje, Dorte Juul Jensen, Tianbo Yu

2024Metallurgical and Materials Transactions A25 citationsDOIOpen Access PDF

Abstract

Abstract The 3D morphology of the additive-manufacturing-induced cell structure is characterized and its formation in austenitic stainless steel 316L fabricated by laser powder bed fusion is analyzed. The experimental results demonstrate that the cell structure has a 3D prism-like morphology with a crystallography-dependent spatial orientation. The formation of the cell structure is discussed. It is proposed that both the liquid–solid transformation and thermal strain contribute to the formation: the initial cells form during the liquid–solid transformation, and the final dislocation cell structure is shaped by thermal-stress-induced deformation during cooling and subsequent thermal cycles.

Topics & Concepts

Morphology (biology)Mechanism (biology)Materials scienceMetallurgyGeologyPhilosophyEpistemologyPaleontologyAdditive Manufacturing Materials and ProcessesAdditive Manufacturing and 3D Printing TechnologiesManufacturing Process and Optimization
Additive-Manufacturing-Induced Cell Structure in Stainless Steel 316L: 3D Morphology and Formation Mechanism | Litcius