Interfacial Bonding and Abrasive Wear Behavior of Iron Matrix Composite Reinforced by Ceramic Particles

Yefei Li; Cong Li; Shuli Tang; Qiaoling Zheng; Juan Wang; Zhibo Zhang; Zhicheng Wang

doi:10.3390/ma12223646

Interfacial Bonding and Abrasive Wear Behavior of Iron Matrix Composite Reinforced by Ceramic Particles

Materials (Basel). 2019 Nov 6;12(22):3646. doi: 10.3390/ma12223646.

Authors

Yefei Li¹, Cong Li¹, Shuli Tang², Qiaoling Zheng¹, Juan Wang³, Zhibo Zhang³, Zhicheng Wang⁴

Affiliations

¹ State Key Laboratory for Mechanical Behavior of Materials, Xi'an Jiaotong University, Xi'an 710049, China.
² Xi'an Microelectronic Technology Institute, Xi'an 710054, China.
³ Guangdong Institute of Materials and Processing, Guangzhou 510650, China.
⁴ Yancheng Jiuheng Industry & Trade Co., Ltd., Yancheng 224021, China.

Abstract

Using zirconia toughened alumina (ZTA) particles and Ni-Ti complex powders as raw materials, high-Cr cast iron reinforced by ZTA particles was prepared by an infiltration casting process. A continuous transition layer formed at the interface between ZTA particles and the Cr15 matrix, which proves that there is strong metallurgical interfacial bonding at the interface. The phases in the Ni-Ti layer of the ZTA_P/Fe composite were preserved compared with the microstructure of sintered ZTA ceramic preform. The hardness of the Ni₃Ti, TiO and AlNi₂Ti phases in the interfacial transition layer was measured by the nano-indentation method, which is 12.5 GPa, 16.1 GPa and 9.2 GPa, respectively. The three-body wear resistance of the composite reached 12.6 times that of high-Cr cast iron.

Keywords: ceramic particle; iron matrix composite; slurry coating; three-body abrasive wear.