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Vol.49, No.9, 678 ~ 686, 2011
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| Title |
| Effect of Applied Pressure on Microstructure and Mechanical Properties for Spark Plasma Sintered Titanium from CP-Ti Powders |
| 조경식 Kyeong Sik Cho , 송인범 In Beom Song , 김재 Jae Kim , 오명훈 Myung Hoon Oh , 홍재근 Jae Keun Hong , 박노광 Nho Kwang Park |
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| Abstract |
| The aim of this study was to determine the effect of applied pressure and sintering temperature on the microstructure and mechanical properties for spark plasma sintering (SPS) from commercial pure titanium (CP-Ti) powders. Spark plasma sintering is a relatively new sintering technique in powder metallurgy which is capable of sintering metal and ceramic powers quickly to full density at a fairly low temperature due to its unique features. SPS of ?200 mesh or ?400 mesh CP-Ti powders was carried out in an Ar+H2 mixed gas flowing atmosphere between 650℃ and 750℃ under 10 to 80 MPa pressure. When SPS was carried out at relatively low temperatures (650℃ to 750℃), the high (>60 MPa) pressure had a marked effect on densification and grain growth suppression. The full density of titanium was achieved at temperatures and pressures above 700℃ and 60 MPa by spark plasma sintering. The crystalline phase and microstructure of titanium sintered up to 700℃ consisted of α-Ti and equiaxed grains. Vickers hardness ranging from 293 to 362 Hv and strength ranging from 304 to 410MPa were achieved for spark plasma sintered titanium. |
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| Key Words |
| metals, powder processing, mechanical properties, microstructure, scanning elctron microscopy, hardness, strength |
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