郑秋 - 南京航空航天大学

个人简介

郑秋，博士，南京航空航天大学副研究员。主要研究方向为微成形及制造(microforming and microfabrication)，专注于电加热辅助(resistance heating/ electrically assisted)微塑性成形的理论研究与应用化。参与了国家自然科学基金、日本学术振兴会学术研究助成基金、日本科学振兴机构资助等科研项目。发表学术论文10余篇，其中SCI收录一作9篇，参加国际会议并作口头报告6次，参编电子书籍一本。工作经历： 2021.05—至今上岗副研究员南京航空航天大学 2019.04—2021.03 特任研究员 The University of Tokyo 2019.04—2019.09 兼职讲师 Tokyo Metropolitan University 2017.03—2019.02 学术研究员 Tohoku University 2015.10—2017.02 研究员 Hitachi, Ltd. 教育背景: 2012.10—2015.09 博士 Tokyo Metropolitan University 2010.09—2012.09 硕士华中科技大学 2006.09—2010.06 学士华中科技大学著书： [1] Xin-Yun Wang, Jun-song Jin, Lei Deng, Qiu Zheng. Metal Forming-Process, Tools, Design. Section 1 Process-Chapter 2 Stamping-Forging Processing of Sheet Metal Parts. InTech, ISBN 978-953-51-0804-7, 2012, edited by Mohsen Kazeminezhad. 获奖情况： 2012—2015 Asian Human Resources Fund全额奖学金 2011年华中科技大学优秀论文奖 2010年湖北省优秀学位论文、华中科技大学优秀毕业生讲授课程：《金属塑性成形原理》承担项目： [1] 日本学术振兴会，学术研究助成基金（JP19H02476），Microstructure control of magnesium alloy by dieless drawing with non-uniform temperature and strain rate，主要参与； [2] 日本学术振兴会，学术研究助成基金（JP20K21074），Fabrication of Conductive Metallic Micro needles by Superplastic Deformation and Its Fracture for Medical and Biochemical Applications，主要参与； [3] 日本科学振兴机构资助项目（AS2815014R），圧電MEMS を用いた微小発電素子の開発，主要参与； [4] 国家自然科学基金（50705034），大厚差板材零件冷冲锻成形新工艺及其机理研究，主要参与。

研究领域

微成形及制造，电加热辅助塑性成形

近期论文

查看导师新发文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

[1] Qiu Zheng, Tsuyoshi Furushima. Evaluation of high-temperature tensile behavior for metal foils by a novel resistance heating assisted tensile testing system using samples with optimized structures. Journal of Materials Science & Technology. Vol. 94, pp. 216-229, 2021. [2] Qiu Zheng, Tsuyoshi Furushima. Enhancement of uniform plastic deformation for pure titanium foils by applying pre-strain combining with resistance heating method for microforming. Journal of Materials Research and Technology. Vol. 9, pp. 12685-12696, 2020. [3] Qiu Zheng, Le Van Minh, Hung Hoang Nguyen, Hiroki Kuwano. Mechanical Fatigue Analysis of AlN/SUS430/AlN Heterolayered Foils in Micromachined Devices. Sensors and Materials. Vol. 32, No. 7, pp. 2463-2473, 2020. [4] Qiu Zheng, Naoki Mashiwa, Tsuyoshi Furushima. Evaluation of large plastic deformation for metals by a non-contacting technique using digital image correlation with laser speckles. Materials & Design. Vol. 191, No. 108626, 2020. [5] Qiu Zheng, Le Van Minh, Hiroki Kuwano. Young’s modulus and fatigue investigation of aluminum nitride films deposited on 304 stainless steel foils using micro-fabricated cantilevers. Sensors and Actuators A: Physical. Vol. 285, pp. 173-181, 2019. [6] Qiu Zheng, Tetsuhide Shimizu, Ming Yang. Grain size effect on mechanical behavior of thin pure titanium foils at elevated temperatures. International Journal of Mechanical Sciences. Vol. 133, pp. 416-425, 2017. [7] Qiu Zheng, Tetsuhide Shimizu, Ming Yang. Scale effect on springback behavior of pure titanium foils in microbending at elevated temperature. Journal of Materials Processing Technology. Vol. 230, pp. 233-243, 2016. [8] Qiu Zheng, Tetsuhide Shimizu, Ming Yang. Numerical Analysis of Temperature Distribution and Its Optimization for Thin Foils in Micro Deep Drawing Assisted by Resistance Heating. Steel Research International. Vol. 86, pp. 869-876, 2015. [9] Qiu Zheng, Tetsuhide Shimizu, Tomomi Shiratori, Ming Yang. Tensile properties and constitutive model of ultrathin pure titanium foils at elevated temperatures in microforming assisted by resistance heating method. Materials & Design. Vol. 63, pp. 389-397, 2014.

学术兼职

担任Materials & Design、Journal of Materials Engineering and Performance学术期刊审稿人