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Khan, R. H. U.
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Publications (5/5 displayed)
- 2023Residual Stresses in Alloy IN718 Produced Through Modulated Laser Powder Bed Fusioncitations
- 2022Effect of heat treatment on fatigue crack growth in IN718/316L multiple-materials layered structures fabricated by laser powder bed fusioncitations
- 2022Effect of heat treatment on fatigue crack growth in IN718/316L multiple-materials layered structures fabricated by laser powder bed fusioncitations
- 2020Hot Isostatic Pressing of IN625
- 2019Influence of powder characteristics on the microstructure and mechanical properties of HIPped CM247LC Ni superalloycitations
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article
Influence of powder characteristics on the microstructure and mechanical properties of HIPped CM247LC Ni superalloy
Abstract
<p>This work investigates the influence of gas atomised powder particle size and characteristics on the microstructure and mechanical properties of hot isostatically pressed (HIPped)CM247LC nickel-base superalloy powders. Three different GA powders (particle size ranges: 53–150 μm; 0–150 μm; 15–53 μm)of very similar compositions were HIPped at the γ' solvus temperature. Microstructural analysis and tensile testing were conducted on as-HIPped samples. It was found that the fine powders promote the formation of prior particle boundaries (PPBs)decorated with carbide and oxy-carbide clusters due to the higher oxygen content per weight in fine powders, which adversely affects the mechanical properties. It was also found that coarse powder particles are beneficial for minimising PPBs and increasing the twin boundaries fraction. Nonetheless, the best balance of high temperature tensile properties was in the wide range powder (0–150 μm). The effect of particle size was further investigated by sieving the wide range powder into two particle size distributions. Tensile testing of these conditions showed that the hot ductility could be further improved by removing the very fine powder particles. Both of the sieved powders exhibited better hot ductility than the wide range powder and also outperformed the 53–150 μm and 15–53 μm powders.</p>