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Characterization of Mechanical Properties and Grain Size of Stainless Steel 316L via Metal Powder Injection Molding
Characterization of Mechanical Properties and Grain Size of Stainless Steel 316L via Metal Powder Injection Molding
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Characterization of Mechanical Properties and Grain Size of Stainless Steel 316L via Metal Powder Injection Molding
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Characterization of Mechanical Properties and Grain Size of Stainless Steel 316L via Metal Powder Injection Molding
Characterization of Mechanical Properties and Grain Size of Stainless Steel 316L via Metal Powder Injection Molding

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Characterization of Mechanical Properties and Grain Size of Stainless Steel 316L via Metal Powder Injection Molding
Characterization of Mechanical Properties and Grain Size of Stainless Steel 316L via Metal Powder Injection Molding
Journal Article

Characterization of Mechanical Properties and Grain Size of Stainless Steel 316L via Metal Powder Injection Molding

2023
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Overview
The metal powder injection molding process is completed by mixing a metal powder and a binder, performing an injection molding and degreasing process, and then performing a sintering process for high density. The disadvantage of metal powder injection molding is that defects occurring during the process affect mechanical properties, which are worse in mechanical properties than in products manufactured by cold-rolling. In this study, the mechanical properties and microstructure of stainless steel 316L manufactured by the metal powder injection molding process were analyzed. Mechanical properties such as density, tensile strength, and fatigue life were analyzed. The density was measured using Archimedes’ principle, and a relative density of 94.62% was achieved compared to the theoretical density. The tensile strength was approximately 539.42 MPa and the elongation to fracture was approximately 92%. The fatigue test was performed at 80% of maximum tensile strength and a stress ratio of R = 0.1. The fatigue life was found in 55% (297 MPa) of maximum tensile strength that achieved 106 cycles. The microstructure was observed through scanning electron microscope after etching, and as a result, the average grain size was 88.51 μm. Using electron backscatter diffraction, inverse pole figure map, image quality map, and kernel average misorientation map of the specimen were observed in three different areas which were undeformed, uniformly deformed, and deformed. Based on these results, it is expected that research is needed to apply the metal powder injection molding process to the manufacture of agricultural machinery parts with complex shapes.