Microstructural evolution and mechanical properties of an Fe–18Ni–16Cr–4Al base alloy during aging at 950℃ |
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作者姓名: | Man Wang Yong-duo Sun Jing-kai Feng Rui-qian Zhang Rui Tang Zhang-jian Zhou |
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作者单位: | School of Materials Science and Engineering, University of Science and Technology Beijing, Beijing, 100083, China |
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摘 要: | The development of Gen-IV nuclear systems and ultra-supercritical power plants proposes greater demands on structural materials used for key components. An Fe–18Ni–16Cr–4Al (316-base) alumina-forming austenitic steel was developed in our laboratory. Its microstructural evolution and mechanical properties during aging at 950℃ were investigated subsequently. Micro-structural changes were characterized by scanning electron microscopy, electron backscatter diffraction, and transmission electron microscopy. Needle-shaped NiAl particles begin to precipitate in austenite after ageing for 10 h, whereas round NiAl particles in ferrite are coarsened during aging. Precipitates of NiAl with different shapes in different matrices result from differences in lattice misfits. The tensile plasticity increases by 32.4% after aging because of the improvement in the percentage of coincidence site lattice grain boundaries, whereas the tensile strength remains relatively high at approximately 790 MPa.
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关 键 词: | austenitic steel alumina aging precipitates mechanical properties microstructural evolution nuclear power plants |
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