Homogenization of Through-Thickness Microstructure and Mechanical Properties in Direct-Quenched High-Nb Q690 Steel via Tempering
Haonan Wang, Dazhao Li, Yongqing Zhang, Peimao Fu, Haitao Lu, Hejia Zhu, Xingchi Chen, Boyu Guan, Yongan Chen, Shaobin Bai

TL;DR
This study shows how tempering can improve the uniformity of microstructure and mechanical properties in thick high-strength steel plates.
Contribution
The study reveals how high-temperature tempering homogenizes microstructure and toughness in thick high-Nb steel.
Findings
As-quenched steel showed a strong microstructural gradient with poor core toughness (~24 J).
Tempering at 580 °C improved core impact energy to ~49 J by decomposing M-A constituents.
Thermally stable (Nb,Ti,Mo)C nanoprecipitates maintained high yield strength despite matrix recovery.
Abstract
Manufacturing heavy-gauge high-strength steel plates with uniform through-thickness properties is challenging due to the limited hardenability and significant cooling rate variations inherent to heavy sections. However, the mechanism governing microstructural homogenization across such large cross-sections remains not fully understood. This study investigates the through-thickness microstructure and mechanical properties of a 60 mm thick high-Nb microalloyed Q690 steel plate processed by direct quenching (AQ) and subsequent tempering at 530 °C and 580 °C. Characterization was performed at the surface (0t), quarter-thickness (1/4t), and core (1/2t) locations. Results revealed a pronounced gradient in the as-quenched state: while the surface consisted of fine lath martensite/bainite, the core formed coarse granular bainite containing blocky martensite–austenite (M-A) constituents. This…
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Taxonomy
TopicsMicrostructure and Mechanical Properties of Steels · Metal Alloys Wear and Properties · High Temperature Alloys and Creep
