入职时间:2018-09-13
所在单位:冶金与环境学院
学历:博士研究生毕业
性别:男
联系方式:jie.zeng@csu.edu.cn
学位:博士学位
在职信息:在职
毕业院校:北京科技大学
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[1]In situ observation of pearlite phase transition in high-carbon steel under different holding temperatures and cooling rates using confocal laser scanning microscope.Journal of Materials Research and Technology, 2023
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[2]Effect of Permanent Magnet Stirring on Solidification of High-sulfur Micro-alloyed Steel under Different Magnetic Flux Densities.Steel Research International, 2022
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[3]Effect of chromium coating roughness and thickness on interfacial heat transfer behavior of sub-rapid solidification process.Philosophical Magazine, 2022
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[4]Effect of Permanent Magnet Stirring on MnS Precipitation, Microstructure Evolution, and Mechanical Properties of High-Sulfur Micro-alloyed 49MnVS3 Steel.Metallurgical and Materials Transactions B, 2022
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[5]Evolution of the Si Phase and Mechanical and Tribological Properties of a B390 Aluminum Alloy Under the Addition of Ce Element.International Journal of Metalcasting, 2022
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[6]Mechanism of Tempered Sorbite Formation and Related Enhanced Mechanical Properties for a Typical High Carbon Steel Billet Under Strong Cooling Intensity.Metallurgical and Materials Transactions B, 2021
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[7]Evolution of solidification structure, primary phase and wear properties of Sn–11wt%Sb alloy ingots under permanent magnet stirring.Philosophical Magazine, 2021
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[8]In Situ Observation of the MnS Precipitation Behavior in High-Sulfur Microalloyed Steel Under Different Cooling Rates.Metallurgical and Materials Transactions B, 2020
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[9]MnS Precipitation Behavior of High Sulfur Microalloyed Steel Under Sub-rapid Solidification Process.Metallurgical and Materials Transactions B, 2020
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[10]Microstructures and Nb-Rich Precipitation Behaviors of Inconel 718 Superalloy Under Sub-rapid Solidification Process.Metallurgical and Materials Transactions A, 2020
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[11]Mechanism of δ → δ + γ Phase Transformation and Hardening Behavior of Duplex Stainless Steel via Sub-rapid Solidification Process.Materials Characterization, 2020
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[12]Evolution of primary Si phase, surface roughness and mechanical properties of hypereutectic Al–Si alloys with different Si contents and cooling rates.Philosophical Magazine Letters, 2020
