Litcius/Paper detail

Interfacial regulation and fracture mechanism of Al–Si/SiC composites infiltrated under super-gravity field

Chuandong Wu, Yuehui Lu, Penghui Zhang, Tao Guo, Jiaming Wang, Yingyu Li, Shuai Shen, Tian Yang, Zhanghua Gan, Guoqiang Luo, Jing Liu

2023Journal of Materials Research and Technology11 citationsDOIOpen Access PDF

Abstract

We reported a novel method to prepare Al–Si/SiC composites infiltrated under super-gravity field without Mg addition. Noted that centrifugal force acted as the main driving force to overcome the penetration resistance, making it feasible to obtain the Al–Si/SiC composite with high relative density (≥99.3 %). The interfacial reaction between Al and SiC was retarded by Si addition under super-gravity field. Interestingly, the rod-like eutectic Si was detected at Al–SiC interface with semi-continuous distribution, leading to the excellent bending strength (342.6 ± 1.0 MPa), enhanced thermal conductivity (173 W/m K at 373 K), and relatively low coefficient of thermal expansion (8.90 × 10−6 K−1 ranged from 323 to 373 K). The interfacial regulation and fracture mechanism were discussed in details.

Topics & Concepts

Materials scienceEutectic systemComposite materialComposite numberThermal expansionFlexural strengthPenetration (warfare)Fracture (geology)Thermal conductivityMicrostructureOperations researchEngineeringAluminum Alloys Composites PropertiesAdvanced ceramic materials synthesisMicrostructure and mechanical properties
Interfacial regulation and fracture mechanism of Al–Si/SiC composites infiltrated under super-gravity field | Litcius