Thermal Property of Cu/Ti3SiC2 FGM

Yan Lin Chen; Jin Li; Shang Shang Shan; Wei Gao; Zong Yu Li; Cheng Wen Zeng

doi:10.4028/www.scientific.net/KEM.697.670

Paper Titles

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Analysis on Low Cycle Fatigue Life and Fatigue Fracture Surface Morphology of TC25 Titanium Alloy
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Analysis on High Cycle Fatigue Properties and Fatigue Damage Evolution of TC25 Titanium Alloy
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Research on Transition from Short to Long Fatigue Crack Propagation of GH4133B Superalloy Used in Turbine Disk of Aero-Engine
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Thermal Property of Cu/Ti₃SiC₂ FGM
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ZrO₂ Ceramic CompositeAdded with MgAl₂O₄: Thermal Shock Resistance and Corrosion Resistance in Molten Uranium
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The Oxidation Resistance of ZrB₂-SiC Composites Fabricated by High Pressure and High Temperature Sintering
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Ablation Behavior of Low Pressure Plasma Sprayed TiB₂-MoSi₂ Composite Coatings
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Synthesis of Carbon Nanotubes from Phenolic Resin Using Nickel Nitrate as a Catalyst Precursor
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HomeKey Engineering MaterialsKey Engineering Materials Vol. 697Thermal Property of Cu/Ti3SiC2 FGM

Thermal Property of Cu/Ti₃SiC₂ FGM

Abstract:

A four-layer functionally gradient material (FGM) of Cu/Ti₃SiC₂ was fabricated by hot pressing (HP) in vacuum. Oxidation behavior of Cu/Ti₃SiC₂ FGM was also investigated. The results show that the oxidation dynamics of Cu/Ti₃SiC₂ FGM at 600~800 °C for 30 h in air followed parabolic rate law. The hardness was increased with increasing content of Ti₃SiC₂. Thermal shock resistance was well owing to the effect of thermal stresses mitigated with FGM.