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Crystalline characteristics of a dual-phase precipitation hardening stainless steel in quenched solid solution and aging treatments
Journal
Materials Chemistry and Physics
Journal Volume
280
Date Issued
2022
Author(s)
Ping-Jui Y
Cheng-Yao H
Yi-Ting L
Yu-Cheng S
Cheng-An H
Shing-Hoa W
Jien-Wei Y
Wen-Hsing H
Tzy-Rong L
Tai-Wen H.
Abstract
This study investigated the development of the microstructures and aging reactions in a new dual-phase (allotriomorphic δ + γ) 17–4 precipitation-hardened (PH) stainless steel (SS) alloy. The 17–4 PH alloy, a martensitic stainless steel containing Cu (3–5 wt.%), was subjected to solid solution treatment followed by quenching using oil, H2O, or liquid N2. The microstructures of the steel specimens were primarily composed of lath martensite and allotriomorphic δ-ferrite. X-ray diffraction analysis indicated that the structures consisted entirely of bcc phase peaks. During aging at 560 and 600 °C, the local microstrain was released because of the tempering of the lath martensite and the formation of reverted austenite, resulting in a shift in the kernel's average misorientation distribution toward lower angles. The misorientation associated with the martensite boundaries ranged from 10° to 20° and from 47° to 57° in the packets. In the blocks, it ranged from 50° to 60°. The F1-ferrite approximately followed the Kurdjumov–Sachs orientation relationship with A1-austenite and A2-austenite. © 2022 Elsevier B.V.
Subjects
Allotriomorphic δ; Dual-phase stainless steel; Micro-strain; Reverted austenite
Other Subjects
Age hardening; Austenite; Ferrite; Martensite; Microstructure; Precipitation (chemical); Solid solutions; Steel research; X ray powder diffraction; Allotriomorphic δ; Crystalline characteristic; Dual phase; Dual phasis; Dual-phase stainless steel; Lath martensite; Micro-strain; Phase precipitations; Precipitation-hardening stainless steel; Reverted austenite; Crystal structure
Type
journal article