Effect of aging temperature on microstructure evolution and strengthening behavior of L-PBF 18Ni(300) maraging steel

材料科学 板条 奥氏体 马氏体时效钢 微观结构 剪切(物理) 马氏体 沉淀硬化 冶金 降水 复合材料 材料的强化机理 加工硬化 物理 气象学
作者
Xingyuan Mei,Yu Yan,Huadong Fu,Xiao‐Dong Gao,Shiyu Huang,Lijie Qiao
出处
期刊:Additive manufacturing [Elsevier BV]
卷期号:58: 103071-103071 被引量:78
标识
DOI:10.1016/j.addma.2022.103071
摘要

This work investigated the microstructure evolution with aging temperature of laser-powder bed fusion ( L -PBF) 18Ni(300) maraging steel at different scales. Important issues of cell structure changes, precipitation sequence, and austenite reversion were evaluated. The dominant strengthening factor in each state was elucidated based on yield strength modeling. The as built fully martensitic matrix consists of dislocation cell structures, and its yield strength comes from the martensite lath and solid solution strengthening with comparable contributions. Aged at 440 °C, the cell walls kept stable and massive ω particles prominently strengthened matrix by shearing mechanism. At 490 °C, the cell walls were partially destroyed and austenite reversion just began along the lath boundary. Densely distributed η-Ni 3 Ti particles produced the peak strength dominantly by the Orowan mechanism, but the shearing process may also exist meanwhile. At 540 °C, cell walls further degraded and reverted austenite formed along the lath boundaries and around some retained cell walls. Its strength decreased mildly mainly due to the wider inter-particle spacing, but was still maintained quite high by Laves-Fe 2 Mo and η-Ni 3 Ti particles via the Orowan process. The reverted austenite with limited fraction had a minor role in its strength decrease, but improved ductility significantly. • Cell structures change, precipitation sequence and autenite reversion were discussed. • Precipitate types were rigorious identified based on crystallographic information. • Dominant strengthening factors in as built and aged states were elucidated.
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