Preparation and formation mechanism of TaCp/Fe cluster-reinforced iron matrix composites

IF 4.8 2区材料科学 Q1 MATERIALS SCIENCE, CHARACTERIZATION & TESTING

Materials Characterization Pub Date : 2025-02-01 DOI:10.1016/j.matchar.2024.114693

Nana Zhao , Zehao Zhang , Liangliang Wang , Chengxuan Zhou , Hao Chen , Lisheng Zhong , Yunhua Xu

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引用次数: 0

Abstract

In ceramic particle reinforced iron matrix composites, a significant increase in the volume fraction of the reinforcing phase results in enhanced strength but a dramatic decrease in toughness. This study prepared TaC_p/Fe cluster-reinforced iron matrix composites through a combination of lost foam casting and in-situ reaction. During lost foam casting, tantalum wires react with gray cast iron in a solid-liquid process to form a preform. In the subsequent in-situ solid-solid reaction, carbon atoms continuously fill the lattice gaps of Ta to form TaC, which then results in the formation of a three-dimensional cluster-reinforced structure of TaC_p and α-Fe around the tantalum wires. TaC_p/Fe cluster-reinforced iron matrix composites have a spatial architecture combining soft and hard phases: The tantalum wires, ferrite, and the carbon-poor regions surrounding the reinforcement constitute the soft regions; TaC_p and its cluster reinforcement exhibits excellent load-bearing properties. The in-situ reaction samples obtained at 1115 °C for 7 h exhibited a compressive yield strength of 419 ± 9 MPa and a strain of 21.1 ± 0.6 %, which are 1.8 times and 1.3 times that of the matrix, respectively. In conclusion, the TaC_p/Fe cluster-reinforced iron matrix composites prepared by lost foam casting combined with in-situ reaction method have favorable strength-toughness matching properties.

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来源期刊

Materials Characterization 工程技术-材料科学：表征与测试

CiteScore

7.60

自引率

8.50%

发文量

746

审稿时长

36 days

期刊介绍： Materials Characterization features original articles and state-of-the-art reviews on theoretical and practical aspects of the structure and behaviour of materials. The Journal focuses on all characterization techniques, including all forms of microscopy (light, electron, acoustic, etc.,) and analysis (especially microanalysis and surface analytical techniques). Developments in both this wide range of techniques and their application to the quantification of the microstructure of materials are essential facets of the Journal. The Journal provides the Materials Scientist/Engineer with up-to-date information on many types of materials with an underlying theme of explaining the behavior of materials using novel approaches. Materials covered by the journal include: Metals & Alloys Ceramics Nanomaterials Biomedical materials Optical materials Composites Natural Materials.