Hot Deformation Behavior of Duplex Stainless Steel 2205

IF 0.6 4区 材料科学 Q4 METALLURGY & METALLURGICAL ENGINEERING Metal Science and Heat Treatment Pub Date : 2024-02-19 DOI:10.1007/s11041-024-00980-z
Zhang Yong-jun, Dong Yuan, Hu Jie-ren, Zhang Hui, Han Jing-tao
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Abstract

The deformation behavior of duplex stainless steel 2205 is investigated by the method of high-temperature tensile and compressive tests using Gleeble 1500. The results of the tensile tests show that the tensile strength gradually decreases with increase in the deformation temperature; in the temperature range from 1020 to 1260°C the reduction of area is more than 60%. The incoordinate deformation of the two-phase tested steel in the range of 1020 – 1080°C leaves 1100 – 1200°C a suitable range for hot deformation. The results of compressive tests at the temperatures from 1100 to 1200°C show that the flow curve has typical features of dynamic recrystallization; with increase of the deformation temperature or decrease of the deformation rate, the peak stress and strain decrease separately; from this the Zener–Hollomon parameter is determined, which reflects the flow property of the tested steel, and an equation is proposed to describe the hot deformation.

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双相不锈钢 2205 的热变形行为
使用 Gleeble 1500 高温拉伸和压缩试验方法研究了双相不锈钢 2205 的变形行为。拉伸试验结果表明,拉伸强度随变形温度的升高而逐渐降低;在 1020 至 1260°C 的温度范围内,降低面积超过 60%。两相试验钢在 1020 - 1080°C 范围内的不协调变形使得 1100 - 1200°C 成为热变形的合适范围。1100 至 1200°C 温度下的压缩试验结果表明,流动曲线具有典型的动态再结晶特征;随着变形温度的升高或变形速率的降低,峰值应力和应变分别减小;由此确定了反映试验钢流动特性的齐纳-霍洛蒙参数,并提出了描述热变形的方程。
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来源期刊
Metal Science and Heat Treatment
Metal Science and Heat Treatment 工程技术-冶金工程
CiteScore
1.20
自引率
16.70%
发文量
102
审稿时长
4-8 weeks
期刊介绍: Metal Science and Heat Treatment presents new fundamental and practical research in physical metallurgy, heat treatment equipment, and surface engineering. Topics covered include: New structural, high temperature, tool and precision steels; Cold-resistant, corrosion-resistant and radiation-resistant steels; Steels with rapid decline of induced properties; Alloys with shape memory effect; Bulk-amorphyzable metal alloys; Microcrystalline alloys; Nano materials and foam materials for medical use.
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