趙嫚

發布者:唐子夏發布時間:2020-01-16浏覽次數:4421


   

基本信息

出生日期:1989/07性别:

電話:15026578531          E-mailzhaoman@sues.edu.cn

籍貫:山東省菏澤市        職務:副教授

地址:上海市龍騰路3334号實訓樓4303201620

學術任職

  • 國外兼任MetalsMicromachining等期刊的客座編委

  • 中國圖學學會智能工廠專委會委員

教育經曆

  • 2017/01—2019/01    佐治亞理工學院(Georgia Institute of Technology)︱機械學院(ME)

                    國家公派聯合培養博士研究生

  • 2015.09-2019.10     東華大學

博士研究生│機械工程│精密加工

  • 2012.09-2015.07     BETVLCTOR伟德官方网站

                       碩士學位│機械工程

  • 2008.09-2012.07     臨沂大學

                    學士學位│機械設計制造及其自動化

承擔科研及教學項目

  • 2023    國家自然科學基金NSFC-52205485 │項目主持

    【項目名稱】軸承鋼微觀組織演變誘導的磨削殘餘應力生成機理及預測研究

  • 2020    上海市浦江人才計劃 PJ20PJ1404700 │項目主持

【項目名稱】基于材料微宏觀特性演變的微磨削殘餘應力生成機理及預測建模研究

  • 2023    BETVLCTOR伟德官方网站課程建設項目│項目主持

【項目名稱】智能制造技術基礎     

  • 2023BETVLCTOR伟德官方网站BETVLCTOR伟德官方网站博士點培育專項重點項目│項目主持

【項目名稱】基于實時超聲滾壓的選區激光熔化殘餘應力主動調控技術研究

  • 2022    上海市高校青年教師培養資助項目(重點推薦)│項目主持

  【項目名稱】“新工科”與課程思政融合貫通的課程

代表性論著

1)已發表的SCI期刊論文

  1. Zhao, M. (#),Ji, X. , Li, B.Z , & Liang, S. Y.  Investigation on the influence of material crystallographic orientation on grinding force in the micro-grinding of single-crystal copper with single grit [J]. International Journal of Advanced Manufacturing Technology. 2017, 90 (9-12):3347-3355 (SCI JCRQ2   IF:2.601)

  1. Zhao, M. (#),Ji, X. , Li, B.Z , & Liang, S. Y.  Effect of crystallographic orientation on the hardness of polycrystalline materials AA7075[J]. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 2019, 233(9): 3182–3192 (SCI JCRQ3   IF:1.445)

  1. Zhao, M. (#),Ji, X. & Liang, S. Y. . Influence of AA7075 crystallographic orientation on micro-grinding force [J]. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 2019, 233(8)1831–1843.   (SCI JCRQ2 IF:1.982)

  1. Zhao, M. (#),Ji, X. & Liang, S. Y.  . Force prediction in micro-grinding maraging steel 3J33b considering the crystallographic orientation and phase transformation [J]. International Journal of Advanced Manufacturing Technology. 2019, 103:2821–2836. https://doi.org/10.1007/s00170-019-03724-z(SCI JCRQ2   IF:2.601)

  1. Zhao, M. (#) ,Ji, X. & Liang, S. Y.. Micro-grinding temperature prediction considering the effect of crystallographic orientation and the strain induced by phase transformation [J]. International journal of precision engineering and manufacturing, 2019, 20: 1861–1876.(SCI JCRQ3 IF:1.661)

  1. Zhao, M.(#) , Ji, X. Feng, Y.X & Liang, S. Y.. Phase transformation prediction considering crystallographic orientation in micro-grinding multi-phase material.Journal of Manufacturing Science and Engineering-ASME. 2020, 142(10): 104501, https://doi.org/10.1115/1.4047492, (SCI JCRQ2 IF:2.875)  

  1. Zhao, M., Mao, J. (#), Ji, X. Feng, Y.X & Liang, S. Y.. Effect of crystallographic orientation on residual stress induced in micro-grinding [J]. International Journal of Advanced Manufacturing Technology. https://doi.org/10.1007/s00170-020-06329-z, 2021, 112:1271-1284, (SCI JCRQ2   IF:2.601)

  2. Wang R., Zhao(#) M., Mao J., Liang S. Y. (2022) Force prediction and material removal mechanism analysis of milling sicp/2009al. Micromachines 13 (10): 1687. (SCI JCRQ2   IF:2.891)

  3. Zhu S., Zhao(#) M., Mao J., Liang S. Y. (2022) Study on hot deformation behavior and texture evolution of aluminum alloy 7075 based on visco-plastic self-consistent model. Metals 12 (10): 1648.(SCI JCRQ2   IF:2.695)

  4. Zhu S., Zhao(#) M., Mao J., Liang S. Y. (2022) A ti-6al-4v milling force prediction model based on the taylor factor model and microstructure evolution of the milling surface. Micromachines 13 (10): 1618.

  5. Mao J,  Zhao, M., An approach for the evaluation of sphericity error and its uncertainty, Advances in Mechanical Engineering, 2013:1-5

  6. Wang J, Ye Q, Zhao M, Shi X, Fei T. Multi-objective parametric optimization for high surface quality and process efficiency in micro-grinding. Measurement and Control. 2021;54(5-6):916-923.

  7. Liu H., Zhao M., Zhou Y., Liu G. (2021) Research on modeling crystallographic texture evolution of al alloy 7075. Frontiers in Materials 8. 10.3389/fmats.2021.773501

2. 第一作者EI期刊論文

  1. Zhao, M. (#),Ji, X. , Li, B.Z , & Liang, S. Y.  Forces prediction in micro-grinding single-crystal copper considering the crystallographic orientation[J]. Manufacturing Review. 2018, 5(15)1884-2020

  2. Zhao, M. (#) , Ji, X. & Liang, S. Y.  . Micro-grinding temperature prediction considering the effects of crystallographic orientation [J]. Manufacturing Review, 20196(22): 1-11.

3、中文期刊

  1. 趙嫚(#),王榮,茅健,張立強.馬氏體合金鋼3J33b磨削力熱載荷-晶粒尺寸演變的動态疊代作用機制研究[J].表面技術,2023,52(07):217-230.

  2. 茅健,趙嫚(#),張立強. 晶粒取向對微細加工磨削力作用機理及實驗研究[J]. 機械工程學報2021,57(5):262-272.

  3. 趙嫚(#),茅健.面向制造過程的裝配公差建模研究[J].工程設計學報2014, 21(6):529-533.

  4.  栾振猛,趙嫚(#),茅健,張立強,劉鋼. 超聲振動對退火态Cr4Mo4V軸承鋼拉伸性能影響的試驗研究[J].軸承,20241-7.

  5.  張志慧,趙嫚(#),王榮,朱思遠,茅健,張立強TC4磨削表面晶粒取向演變及微觀形貌實驗研究[J].航空制造技術,20241-7.

  6.  王榮趙嫚(#)趙克光.基于材料靜動态力學性能分析的SiCp/Al本構模型構建[J].功能材料,2024,55(02):2215-2223.

4、已發表的國際會議論文及其他

  1. Zhao, M, J. Mao. The study of assembly tolerance relational diagram based on the assembly hierarchical model. Procedia CIRP 56 ( 2016 ) 220-22 (EI 收錄)

  2. Mao J, Zhao, M, Mathematical model for assembly tolerance consistence evaluation, Applied Mechanics and Materials, 2013, 401-403: 1610-1613 (EI收錄).

    專利及軟著 

  1. 一種基于航空零部件表面孔隙缺陷用打磨修複裝置中國ZL202310671515.32023/6/8劉鋼;趙嫚

  2. 一種用于航天航空薄壁曲面部件的焊接裝置及其方法中國CN202310692032.12023/6/13劉鋼;趙嫚

代表性科研成果

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