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Iron Aluminide-SiCp 혼합 예비성형체를 사용한 Al합금기 복합재료의 내마모 특성
차재상 ( Jae Sang Cha ),오선훈 ( Sun Hoon Oh ),최답천 ( Dap Chun Choi ) 한국주조공학회 2003 한국주조공학회지 Vol.23 No.1
N/A Porous hybrid preforms were fabricated by reactive sintering using the compacts consisting of SiC particles, Fe and Al powders. Squeeze casting processing was employed to produce the composite in which the matrix phase is Al-Si7Mg. The microstructural change and wear resistance of the composites were investigated in terms of an amount of SiC particles. The wear loss was increased with increasing the contact pressure in the alloy containing SiC particles coated with Cu. The most drastic change was found to the specimen tested at 2.5 MPa of contact pressure. Concerning the alloys containing SiC particles coated with Ni-P, a drastic increase in the wear loss exhibited at 2 MPa of contact pressure in those alloys containing 4 and 8 wt. % of SiC particles coated with Ni-P. In the alloy containing 16 wt. % a proportional increase in wear loss was observed to the change of contact pressure. With respecting to the sliding velocity, the wear loss of the alloy containing SiC particles coated with Cu increased at the initial stage of wear process and then decreased. Similar result was found in the alloys containing SiC particles coated with Ni-P. On the basis of the present results obtained, it was found that wear resistance of the alloys tested was improved to show in the order of the alloy reinforced by coated SiC particles > by uncoated SiC particles > by intermetallic compound without SiC particles.
Fe - 30Al - 5Cr 합금의 미세조직 및 DO3 - B2 천이온도에 미치는 Ti , Hf 및 Zr 의 첨가효과
김성수(Sung Su Kim),주성민(Sung Min Joo),오선훈(Seon Hun Oh),김관휴(Kwan Hyu Kim),최답천(Dap Chun Choi) 한국주조공학회 2001 한국주조공학회지 Vol.21 No.1
The changes in the microstructures and D0₃↔ B2 transition temperature were investigated for Fe-30at.%Al-5at.%Cr alloy with the ordered D0₃structure when Ti, Hf and Zr were added respectively. The addition of Cr has no effect on the microstructure. However, as the amount of Ti addition increased, the grain size became smaller. Addition of Ti+Hf, Ti+Zr and Ti+Hf+Zr also showed the similar effect. When 20at.% of Ti was added, the second phase precipitates on the substrate. The addition of Cr, Hf and Zr alone has no effect on D0₃↔ B2 transition temperature. However, as the amount of Ti addition increased by 5, 10, 15 and 20at.%, the transition temperatures showed 929, 930, 960 and 930℃ respectively.