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Fracture Characteristics of Flame Thermal Shock in PSZ/NiCrAlY FGM
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송준희 Jun Hee Song , 문상돈 Sang Don Mun |
KJMM 48(8) 775-779, 2010 |
ABSTRACT
Functionally graded materials (FGM) of PSZ/NiCrAlY on Inconel substrate were fabricated by detonation gun spraying method. A thick ceramic layer generally has a high thermal barrier effect however, because failure often occurs, the use of an FGM layer gives an advantage in thermal property. During the thermal shock test, micro fracture processes were detected by the AE method. Also, the thermal shock test was performed for NFGM, FGM and the changed FGM in the layered composition profile. It was found through AE testing and the observation of fracture surface that FGM was superior to NFGM in thermal shock properties. The linear or metal-rich type FGM in composition profile had the best resisting property among the FGM. It was found that the controlled composition profile of the graded layers had better thermal properties.
keyword : functionally graded materials, FGM, powder processing, fracture, flame test, composites
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Microstructure and Tensile Property of In-Situ (TiB+TiC) Particulate Reinforced Titanium Matrix Composites
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최봉재 Bong Jae Choi , 김영직 Young Jig Kim |
KJMM 48(8) 780-789, 2010 |
ABSTRACT
The aim of this study is to evaluate the microstructure and tensile property of in-situ (TiB+TiC) particulate reinforced titanium matrix composites (TMCs) synthesized by the investment casting process. Boron carbide (1,500 μm and 150 μm) was added to the titanium matrix during vacuum induction melting, which can provide the in-situ reaction of 5Ti+B4C→4TiB+TiC. 0.94, 1.88 and 3.76 wt% of B4C were added to the melt. The phases identification of the in-situ synthesized TMCs was examined using scanning electron microscopy, an X-ray diffractometer, an electron probe micro-analyzer and transmission electron microscopy. Tensile properties of TMCs were investigated in accordance with the reinforcement size and volume fraction. The improvement of tensile property of titanium matrix composites was caused by load transfer from the titanium matrix to the reinforcement and by grain refinement of titanium matrix and reinforcements. (Received April 2, 2010)
keyword : titanium, composites, casting, microstructure, tensile test
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