H. Özkan Gülsoy scite author profile

This paper describes the microstructural and mechanical properties of injection moulded 17-4 PH stainless steel gas and water atomised powder. Gas and water atomised stainless steel powders were injection moulded with wax based binder. The critical powder loading for injection moulding were 62 . 5 and 55 vol.-% for gas and water atomised powders respectively. Binder debinding was performed using solvent and thermal method. After dedinding the samples were sintered at different temperatures for 1 h in pure H 2 . Metallographic studies were conducted to determine to extend densification and the corresponding microstructural changes. The results show that gas atomised powder could be sintered to a maximum (98 . 7%) of theoretical density, and water atomised powder could be sintered to a maximum (97 . 08%) of theoretical density. Maximum tensile strength was obtained for gas atomised powder sintered at 1350uC. The tensile strength of the water atomised powder sintered at the same temperature was lower owing to higher porosity. Finally, mechanical tests show that the water atomised powder has lower mechanical properties than gas atomised powder.

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H. Özkan Gülsoy

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Microstructural and mechanical properties of injection moulded gas and water atomised 17-4 PH stainless steel powder

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