稀有合金连续冷却贝氏体钢的显微组织和机械性能演变

IF 0.6 4区材料科学 Q4 METALLURGY & METALLURGICAL ENGINEERING Metal Science and Heat Treatment Pub Date : 2024-09-20 DOI:10.1007/s11041-024-01040-2

J. N. Mohapatra, D. Satish Kumar, G. Balachandran

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引用次数: 0

摘要

研究了连续冷却对含 1.73% Mn、1.35% Si 及 Nb (0.02%) 和 Ti (0.04%) 微合金的低碳（0.17% C）钢贝氏体转变过程的发展和机械性能的影响。在不同的连续冷却条件下进行了显微组织和相分析。使用 Hollomon 方程和改进的 Crussard-Jaoul 工作硬化模型研究了各种条件下的工作硬化行为。该钢在临界温度之间和高于 A3 温度（790 至 900 摄氏度）的范围内分别进行了 5 分钟和 30 分钟的奥氏体化，随后进行了持续冷却，形成了以贝氏体为主的微观结构，从而实现了超高强度（1100 兆帕）和高延展性（20%）。延长奥氏体化时间有助于提高钢的强度和延展性。

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Evolution of Microstructure and Mechanical Behavior of a Lean Alloyed Continuously Cooled Bainitic Steel

The effect of continuous cooling on the development of the bainite transformation process and the mechanical properties of low-carbon (0.17% C) steel alloyed with 1.73% Mn, 1.35% Si and microalloyed with Nb (0.02%) and Ti (0.04%) is studied. The microstructure and phase analysis is carried out at various continuous cooling conditions. The work hardening behavior under various conditions is examined using the Hollomon equation and modified Crussard–Jaoul work hardening model. The steel is subjected to austenitization in the intercritical range and above the A₃ temperature between 790 and 900°C for 5 and 30 min, followed by continuous cooling to form a dominantly bainitic microstructure, which makes it possible to achieve an ultrahigh strength (1100 MPa) at a high ductility (20%). A longer austenitization time contributes to an increase in the strength and ductility of the steel.

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来源期刊

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.