Study on Tensile and High Cycle Fatigue Properties of TiC Particle Reinforced Titanium Matrix Composite

Li Ying Zeng; Yong Qing Zhao; Xiao Nan Mao; Yun Lian Qi

doi:10.4028/www.scientific.net/MSF.546-549.1535

Paper Titles

In Situ Composites: Effect of Intermolecular Hydrogen Bonds on Polyamide 66/TLCP Blends
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Effect of Needling Parameters on Mechanical Properties of C/C Composites Reinforced by Carbon Cloth
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Effect of Silica on the Electrical Properties of Epoxy of Phenolic Resin/Carbon Black/Silica Composite Coating
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Effects of Interphase Thickness on Damping Behavior of 2D C/SiC Composites
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Study on Tensile and High Cycle Fatigue Properties of TiC Particle Reinforced Titanium Matrix Composite
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Use of WEDM in the Characterization Process of Al/2-Phase Systems Consolidated by Multilayer Cylindrical Dynamic Compaction Method
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Effect of Ozone Treatment on the Interfacial Properties of High Modulus Carbon Fiber/Epoxy Composites
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Light Weight and High Modulus Aluminum Matrix Composite and its Application into Aerospace
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Finite Element Analysis of Interfacial Debonding Damage in Fiber-Reinforced Ceramic Matrix Composites
p.1555

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Study on Tensile and High Cycle Fatigue Properties of TiC Particle Reinforced Titanium Matrix Composite

Abstract:

Tensile and high cycle fatigue (HCF) property for TiC particle reinforced titanium matrix composite has been studied in this paper. The results indicated that the composite possessed favorite comprehensive properties. The tensile properties for the composite are superior to that of the common high temperature titanium alloys, e.g. IMI834, Ti-1100. Smooth axial fatigue tests were taken at a frequency of 76Hz with a load ratio R of 0.06 and –1, respectively. And HCF strength for the composite at ambient temperature is 595MPa and 494MPa, respectively.