TENSILE/COMPRESSIVE RESPONSE OF 316L STAINLESS STEEL FABRICATED BY ADDITIVE MANUFACTURING
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Date
2024
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Abstract
Additive manufacturing has evolved from a rapid prototyping technology to a technology with the ability to produce highly complex parts with superior mechanical properties than those obtained conventionally. The processing of metallic powders by means of a laser makes it possible to process any type of alloy and even metal matrix composites. The present work analyzes the tensile and compressive response of 316L stainless steel processed by laser-based powder bed fusion. The resulting microstructure was evaluated by optical microscopy. Regarding the mechanical proppercentage of elongation before breakage, compressive strength and microhardness were determined. The results show that the microstructure is constituted by stacked micro molten pools, within which cellular sub-grains are formed due to the high thermal gradient and solidification rate. The compressive strength (1511.88 +/- 9.22 MPa) is higher than the tentest, the hardness increased by 23%.
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Keywords
Additive manufacturing, Laser powder bed fusion, Mechanical properties, Stainless steel, Strain hardening