Litcius/Paper detail

A FeCrB-based composite containing multi-scale corrosion-resistant phases: Application in high-temperature liquid aluminum corrosion

Gaopeng Xu, Kui Wang, Yunqian Zhen, Yazhao Shen, Funian Han, Hao Wang, Xuezhen Yue, Juan Hou, Haiyan Jiang, Wenjiang Ding

2024Journal of Materials Research and Technology11 citationsDOIOpen Access PDF

Abstract

In this work, FeCrB-based composites modified by in-situ ceramic particles (TiB2 and TiC) were synthesized, and the effects of ceramic particles on their microstructure evolution and the corrosion-resistant behavior in liquid aluminum were systematically investigated. Results indicate that the introduction of in-situ ceramic particles can significantly improve the size, morphology and distribution of borides, thus leading to a remarkable enhancement of the corrosion resistance. Based on the growth-dissolution kinetic relationship of intermetallic compounds (IMCs) at the corrosion interface, a theoretical numerical model was established to quantitatively describe the corrosion behavior of ferrous alloys in liquid aluminum, and the multi-scale corrosion-resistance mechanism is proposed to elucidate the excellent performance of FeCrB-based composites in liquid aluminum.

Topics & Concepts

CorrosionMaterials scienceComposite numberAluminiumMetallurgyHigh-temperature corrosionComposite materialAdvanced ceramic materials synthesisAluminum Alloys Composites PropertiesIntermetallics and Advanced Alloy Properties
A FeCrB-based composite containing multi-scale corrosion-resistant phases: Application in high-temperature liquid aluminum corrosion | Litcius