ShengXiong Tang, Soya Nishimoto, Koji Hagihara, Michiaki Yamasaki
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引用次数: 0
摘要
本研究旨在探讨挤压温度对异质微观结构和机械性能发展的影响,重点关注其对 AZ31B 合金断裂韧性的影响。在 523 至 723 K 的温度范围内,通过温/热挤压制造了具有高强度和合理断裂韧性的镁 AZ31B(Mg-3wt%Al-1wt%Zn)合金,该合金具有异质微观结构。在 523 K 温度下挤压的 AZ31B 合金具有双峰晶粒,即具有较高核平均取向偏差(KAM)值的粗加工晶粒和具有中等 KAM 值的精细动态再结晶(DRXed)晶粒(10 µm)。523 K 挤压合金的拉伸屈服强度高达 280 兆帕,断裂韧性 KJIC 为 26 兆帕-m1/2。相反,723 K 挤压 AZ31B 合金的晶粒呈三向分布,分为少量加工晶粒、细 DRX 化晶粒和粗 DRX 化晶粒(> 10 µm),KAM 值较低。723 K 挤压合金的拉伸屈服强度较低,但 KJIC 值却很高,达到 ∼ 36 MPa-m1/2,原因是粗 DRX 晶粒中裂纹扩展的能量耗散较高。
Effects of heterogeneous microstructure evolution on the tensile and fracture toughness properties of extruded AZ31B alloys
This study aims to investigate the extrusion temperature effects on the development of heterogeneous microstructures and mechanical properties, focusing on their impact on the fracture toughness of AZ31B alloys. Magnesium AZ31B (Mg-3wt%Al-1wt%Zn) alloys with high strength and reasonable fracture toughness, featuring heterogeneous microstructures, were fabricated via warm/hot extrusion at temperatures ranging from 523 to 723 K. The AZ31B alloy extruded at 523 K was bimodally grained into coarse worked grains with high Kernel average misorientation (KAM) values and fine dynamically recrystallized (DRXed) grains (< 10 µm) with intermediate KAM values. The 523 K-extruded alloy exhibited a high tensile yield strength of ∼280 MPa and fracture toughness KJIC of ∼26 MPa·m1/2. Conversely, the 723 K-extruded AZ31B alloy was trimodally grained into a small amount of worked grains, fine DRXed grains, and coarse DRXed grains (> 10 µm) with low KAM values. The 723 K-extruded alloy exhibited low tensile yield strength but a high KJIC value of ∼36 MPa·m1/2 owing to the high energy dissipation for crack extension in the coarse DRXed grains.
期刊介绍:
The Journal of Magnesium and Alloys serves as a global platform for both theoretical and experimental studies in magnesium science and engineering. It welcomes submissions investigating various scientific and engineering factors impacting the metallurgy, processing, microstructure, properties, and applications of magnesium and alloys. The journal covers all aspects of magnesium and alloy research, including raw materials, alloy casting, extrusion and deformation, corrosion and surface treatment, joining and machining, simulation and modeling, microstructure evolution and mechanical properties, new alloy development, magnesium-based composites, bio-materials and energy materials, applications, and recycling.
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