Effect of Ti Doping on the Microstructure and Properties of SiCp/Al Composites by Pressureless Infiltration

Feng, Ruijie; Wu, Haibo; Liu, Huan; Yang, Yitian; Pei, Bingbing; Han, Jianshen; Liu, Zehua; Wu, Xishi; Huang, Zhengren

doi:10.3390/ma17071608

Materials

2024

DOI: 10.3390/ma17071608

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Effect of Ti Doping on the Microstructure and Properties of SiCp/Al Composites by Pressureless Infiltration

Ruijie Feng,

Haibo Wu,

Huan Liu

et al.

Abstract: The effects of Ti doping on the microstructure and properties of SiCp/Al composites fabricated by pressureless infiltration were comprehensively investigated using first-principles calculations and experimental analyses. First-principles calculations revealed that the interface wetting and bonding strength in an Al/SiC system could be significantly enhanced by Ti doping. Subsequently, the Ti element was incorporated into SiC preforms in the form of TiO2 and TiC to verify the influence of Ti doping on the press… Show more

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Analysis and modeling of removal energy in grinding of SiCp/Al considering matrix and reinforcement phase

Guo,

Han,

et al. 2024

Ceramics International

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Analysis and modeling of removal energy in grinding of SiCp/Al considering matrix and reinforcement phase

Guo,

Han,

et al. 2024

Ceramics International

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Effect of MnO₂ addition on the microstructure and properties of high-volume fraction SiC_p/Al composites fabricated by pressureless melt infiltration

Tijjani Murtala,

2024

Materials Science and Technology

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High-volume fraction silicon carbide particles reinforced aluminum matrix composites (SiCp/Al) with low coefficient of thermal expansion (CTE) and high thermal conductivity (TC) were fabricated by infiltrating Al-Si-Mg alloy in air atmosphere without pressure into porous SiC preforms doped with different manganese dioxide (MnO2) content in order to investigate the effectiveness of MnO2 as infiltration aid. The effect of MnO2 on the infiltration time, microstructure and thermo-mechanical properties of the composite materials were studied. The volume ratio of SiC to MnO2 was set at 100:0, 100:5, 100:10 & 100:15 respectively. Obtained results showed the effectiveness of MnO2 as infiltration aid as the infiltration time was significantly reduced, the wetting between SiC and Al and interfacial bonding strength were considerably improved with the addition of MnO2. Harmful and brittle aluminum carbide (Al4C3) was not detected at the interface of the Al alloy and SiC ceramic phase. The composites with 100:15 MnO2 and 100:10 MnO2 content were found to have less incubation period and infiltration time. Optimum dispersion of SiC particles in the Al alloy and better properties were obtained with 100:10 MnO2 content composite samples. The properties are; a coefficient of thermal expansion (RT to 473 K) of 9.3 × 10−6 K−1, a thermal conductivity of 200.5 W/(mK), a hardness of 145.2 HBW and a bending strength of 338.0 MPa.

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Effect of Ti Doping on the Microstructure and Properties of SiCp/Al Composites by Pressureless Infiltration

Cited by 2 publications

References 34 publications

Analysis and modeling of removal energy in grinding of SiCp/Al considering matrix and reinforcement phase

Analysis and modeling of removal energy in grinding of SiCp/Al considering matrix and reinforcement phase

Effect of MnO₂ addition on the microstructure and properties of high-volume fraction SiC_p/Al composites fabricated by pressureless melt infiltration

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Effect of Ti Doping on the Microstructure and Properties of SiCp/Al Composites by Pressureless Infiltration

Cited by 2 publications

References 34 publications

Analysis and modeling of removal energy in grinding of SiCp/Al considering matrix and reinforcement phase

Analysis and modeling of removal energy in grinding of SiCp/Al considering matrix and reinforcement phase

Effect of MnO2 addition on the microstructure and properties of high-volume fraction SiCp/Al composites fabricated by pressureless melt infiltration

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Effect of MnO₂ addition on the microstructure and properties of high-volume fraction SiC_p/Al composites fabricated by pressureless melt infiltration