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Tailoring grain and intermetallic of as-extruded Al-La-Mg-Fe alloy: Towards a balance of mechanical properties at room and elevated temperatures

Tao Ban, Zhi Wang, Liejun Li, Zhuoran Li, Jixiang Gao, Xinkui Zhang, Zhengwu Peng

2025Journal of Materials Research and Technology9 citationsDOIOpen Access PDF

Abstract

This study successfully develops a novel Al-La-Mg-Fe alloy with a balance of room-temperature and high-temperature mechanical properties through precise control of grain structure and intermetallics via hot extrusion process. The as-extruded Al-La-Mg-Fe alloys achieve enhanced room-temperature mechanical properties (UTS: 293 ± 13 MPa, El: 6.6 ± 0.3%) coupled with remarkable high-temperature strength-ductility synergy (UTS: 158 ± 5 MPa, El: 24.7 ± 3.0%). The enhanced room-temperature strength-ductility balance originates from the synergistic effects of refined grains, finely dispersed intermetallics, and narrowed intermetallic-free zones, which collectively enhance dislocation motion resistance and promote dislocation accumulation. Moreover, the combined influence of high volume fraction of coarsening-resistant Al 11 La 3 and Al 13 Fe 4 intermetallics and optimized grain boundary density effectively mitigates the detrimental effects of enhanced atomic diffusion and accelerated grain boundary migration at elevated temperatures, resulting in a 54% strength retention at 300°C and demonstrating exceptional high-temperature mechanical performance. Additionally, the crack-buffering zones and blunting mechanisms during high-temperature tensile deformation significantly enhance the plasticity of the alloy. These findings establish fundamental principles for the coordinated optimization of grain size and intermetallics in developing heat-resistant aluminum alloys.

Topics & Concepts

Materials scienceIntermetallicAlloyMetallurgyGrain sizeExtrusionAluminum Alloy Microstructure PropertiesMicrostructure and mechanical propertiesAluminum Alloys Composites Properties
Tailoring grain and intermetallic of as-extruded Al-La-Mg-Fe alloy: Towards a balance of mechanical properties at room and elevated temperatures | Litcius