趙嫚

個人信息：

姓名：趙嫚                                            職稱：講師

專業：機械制造及其自動化                學歷層次：博士

辦公室地點：實訓中心4303

辦公電話：15026578531

電子郵箱：zhmgchd@163.com

主講課程：互換性及技術測量

個人簡介：(教育背景、工作經歷)

教育背景

l2015.09-2019.11東華大學

博士研究生│機械工程│精密加工

工作經歷

l2019.12-至今上海工程技術大學，機械與汽車工程學院，航空航天裝備制造及工藝研究所

l2017/01—2019/01佐治亞理工學院，機械學院，國家公派聯合培養博士研究生

研究方向:

磨削加工工藝、加工機理及表面質量控制；材料微宏觀性能表征及微觀組織結構演變；碳纖維復材輕量化加工裝備等。

主要研究項目：

2020.11.01至2022.10.31，主持上海浦江人才計劃一項；

2021.06至2024.05，參與上海工程技術大學青年科研團隊培育計劃一項。

代表性科研成果：（代表性論文、專利、著作等）

近期發表論文15篇，其中SCI收錄9篇，EI 收錄4篇，機械工程學報收錄1篇，代表性論文如下：

(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 JCRQ2IF:2.601)

(2)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

(3)Zhao, M. ^(#) , Ji, X. & Liang, S. Y. . Micro-grinding temperature prediction considering the effects of crystallographic orientation [J]. Manufacturing Review, 2019，6(22): 1-11.

(4)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 JCRQ3IF:1.445)

(5)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)

(6)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 JCRQ2IF:2.601)

(7)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)

(8)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)  

(9)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, 112:1271-11284, (SCI JCRQ2IF:2.601)

(10)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

(11)Zhao, M.^(#), Liang, S. Y.. Modeling Of Residual Stress in Micro-Grinding Considering Texture Effect [J]. Proceedings of the ASME 2021 International Mechanical Engineering Congress and Exposition, IMECE2021,November 1-4, 2021, Virtual, Online.