1、基本情况:
姓名:张响
性别:男
民族:汉
籍贯:河南信阳
职称:教授
导师类型:硕士生导师
2、教育背景:
2004年9月 — 2008年3月,浙江大学,化工机械研究所,化工过程机械,博士
2001年9月 — 2004年7月,郑州大学,国家橡塑模具工程研究中心,材料加工工程,硕士
1996年9月 — 2000年7月,郑州工业大学(现郑州大学),计算机辅助工程系,高分子材料与工程,本科
3、工作经历:
2013年5月 — 至今,郑州大学,力学与安全工程学院,讲师、副教授、教授
2019年1月 — 2020年7月,美国哈佛大学,访问学者
2008年4月 — 2013年4月,郑州大学,机械工程学院,讲师
4、研究领域:
(1)聚合物微纳加工技术;(2)微流控与生物3D打印;(3)先进复合材料设计与成型技术;(4)多物理场建模仿真与优化。
5、社会兼职:
中国微米纳米技术学会高级会员;中国力学学会会员;中国化学会会员;国家药监局体外诊断试剂质量控制重点实验室学术委员会委员;中国医疗器械行业协会,增材制造医疗器械专业委员会,专家委员会委员。
6、荣誉奖励:
[1] Polymer Micro Molding With Bulk Metallic Glass Mold, 河南省第四届自然科学优秀学术论文奖(二等),2017(排名第1)
[2] 河南省教育厅学术技术带头人(2016)
[3] 河南省高等学校青年骨干教师(2015)
[4] Experimental Study on the Surface Characteristics of Pd-based Bulk Metallic Glass,河南省第三届自然科学优秀学术论文奖(二等),2015(排名第1)
[5] 基于SPH方法的微注射成型数值模拟,河南省第二届自然科学优秀学术论文奖(二等),2013(排名第1)
[6] Polymer Micro Hot Embossing with Bulk Metallic Glass Mold Insert,河南省第二届自然科学优秀学术论文奖(二等),2013(排名第1)
[7] 铝合金车轮数字化模拟分析及研究(2009C13024),浙江省科学技术奖(三等),2009 (排名第3)
7、学术成果:
在聚合物加工与建模仿真,金属玻璃微纳米模具设计与成型理论,微纳流控与生物芯片,器官芯片与生物3D打印,热电材料与器件,多物理场建模仿真等方面开展研究。主持国家重点研发计划子课题1项;河南省自然科学基金面上项目1项;河南省科技攻关项目2项;河南省重大科技专项子课题1项;河南省教育厅重点项目2项;河南省青年骨干教师项目1项;河南省博士后科研资助1项(一等);郑州市科技局项目1项;郑州大学优秀青年教师发展基金项目1项;国家重点实验室开放课题1项。作为主要完成人参与国家自然科学基金项目3项,973计划前研项目1项,科技部国际合作项目1项。在专业学术期刊上公开发表学术论文50余篇(其中SCI/EI检索40余篇),申请专利19项,已授权专利11项。
公开发表的学术论文主要有:
[44] Shiyang He, Amin Bahrami, Pingjun Ying, Lars Giebeler, Xiang Zhang, Kornelius Nielsch, Ran He, Improving the thermoelectric performance of ZrNi(In,Sb)-based double half-Heusler compounds, Journal of Materials Chemistry A, 2022, 10(25): 13476-13483
[43] Shiyang He, Jun Yang, Amin Bahrami, Xiang Zhang, Ran He, Martin Hantusch, Sebastian Lehmann, Kornelius Nielsch, Surface modification of bismuth by ALD of antimony oxide for suppressing lattice thermal conductivity, ACS Applied Energy Materials, 2022, 5(4): 4041-4046
[42] Hongbin Li, Rongrong Tang, Zixuan Wang, Jiliang Dai, Shiqi Meng, Xiang Zhang, Feng Cheng, Recent progress in flax fiber-based functional composites, Advanced Fiber Materials, 2022, 4(2):171-184
[41] Mu Li, Tao Zhang, Xiang Zhang, Jinjiang Mu, Weiwei Zhang, Vector-controlled wheel-like magnetic swarms with multimodal locomotion and reconfigurable capabilities, Frontiers in Bioengineering and Biotechnology, 2022, 10: 877964
[40] 张响, 闫振昊, 孔小亚, 朱建晓, 关国涛, 赵娜, 李倩, 盘式螺杆微注塑机动盘结构优化研究, 中国塑料,2022,36(2 ):147-156
[39] Hossein Ravanbakhsh†, Zeyu Luo†, Xiang Zhang†, Sushila Maharjan, Hengameh Sadat Mirkarimi, Guosheng Tang, Carolina Chávez-Madero, Luc Mongeau, Yu Shrike Zhang*, Freeform cryobioprinting for shelf-ready tissue fabrication and storage, Matter, 2022, 5(2):573-593 (共同一作)
[38] 张响, 闫振昊, 孔小亚, 朱建晓, 关国涛, 赵娜, 李倩, 盘式螺杆微注塑机动盘结构优化研究, 中国塑料,2022,36(2 ): 147-156
[37] Xiang Zhang, Zhenhao Yan, Guotao Guan, Zijing Lu, Shujie Yan, Azhen Du, Lixia Wang, Qian Li, PEGDA scaffold filled with cell-laden GelMA/Alginate hydrogels used for cartilage repair, Journal of Biomaterials Applications, 2022, 36(6): 1019-1032
[36] Jinlai Qi, Youping Gong, Honghao Chen, Junling He, Zizhou Qiao, Yi Chen, Huifeng Shao, Wenxin Li, Guojin Chen, Maofa Wang, Chuanping Zhou, Xiang Zhang, Design and 3D printing of interbody fusion cage based on TPMS porous structure, Applied Sciences, 2021, 11:11149
[35] Xiang Zhang, Guotao Guan, Zhenxing Wang, Li Lv, Carolina Chávez-Madero, Mo Chen, Zhenhao Yan, Shujie Yan, Lixia Wang, Qian Li, Drug release evaluation of Paclitaxel / PLLA nanoparticles based on a microfluidic chip. Biomedical Microdevices, 2021, 23(4):57
[34] Shiyang He, Amin Bahrami, Xiang Zhang, Ignacio Gonzalez Martinez, Sebastian Lehmann, Kornelius Nielsch, Effect of powder ALD interface modification on the thermoelectric performance of bismuth, Advanced Materials Technologies, 2021, 2100953
[33] Yongsheng Luo, Chu Wang, Ai-Ping Pang, Xiang Zhang, Dayang Wang, Xiaolin Lu, Low-concentration salt solution changes interfacial molecular behavior of polyelectrolyte brushes, Macromolecules, 2021, 54(13): 6006-6013
[32] Shujie Yan, Yuan Li, Yong-Chao Jiang, Yiyang Xu , Dongfang Wang, Xiang Zhang, Qian Li, Lih-Sheng Turng, Expanded polytetrafluoroethylene/silk fibroin/salicin vascular graft fabrication for improved endothelialization and anticoagulation, Applied Surface Science, 2021, 542:148610
[31] 孔小亚, 张响*, 朱建晓, 侯川玉, 关国涛, 闫振昊, 李倩, 盘式螺杆微注塑机塑化性能研究, 中国塑料, 2021, 35(5):113-118
[30] Xiang Zhang, Zhenxing Wang, Yu Shrike Zhang, Shujie Yan, Chuanyu Hou, Youping Gong, Jingjiang Qiu, Mo Chen, Qian Li, Studying endothelial cell shedding and orientation using adaptive perfusion-culture in a microfluidic vascular chip, Biotechnolog and Bioengineering, 2021, 118(2): 963-978
[29] Shujie Yan, Yuan Li, Yong-Chao Jiang, Yiyang Xu , Dongfang Wang, Xiang Zhang, Qian Li, Lih-Sheng Turng, Expanded polytetrafluoroethylene/silk fibroin/salicin vascular graft fabrication for improved endothelialization and anticoagulation, Applied Surface Science, 2021, 542:148610
[28] Xiang Zhang, Chuanyu Hou, Bowen Dun, Ran Wei, Hossein Ravanbakhsh, Peng Li, Zhenxing Wang, Yuanda Wu, Xiaohui Song, Huadong Zhao, Qian Li, Fatigue behavior of Zr-based metallic glass micropillars, Materials Science & Engineering A, 2020, 787:139503
[27] Youping Gong, Zhikai Bi, Xiangjuan Bian, Anlei Ge, Jingyang He, Wenxin Li, Huifeng Shao, Guojin Chen, Xiang Zhang, Study on linear bio-structure print process based on alginate bio-ink in 3D bio-fabrication, Bio-Design and Manufacturing, 2020, 3(2): 109-121
[26] Shujie Yan, Yiyang Xu, Yu-Jyun Lin, Zhi Zhang, Xiang Zhang, Galip Yilmaz, Qian Li, Lih-Sheng Turng, Ethanol-lubricated expanded-polytetrafluoroethylene vascular grafts loaded with eggshell membrane extract and heparin for rapid endothelialization and anticoagulation, Applied Surface Science, 2020, 511:145565
[25] Shujie Yan, Brett Napiwocki, Yiyang Xu, Jue Zhang, Xiang Zhang, Xiaofeng Wang, Wendy Crone, Qian Li, Lih-Sheng Turng, Wavy small-diameter vascular graft made of eggshell membrane and thermoplastic polyurethane, Materials Science & Engineering C, 2020, 107: 110311.
[24] Xiang Zhang, Zhenxing Wang, Haotong Li, Chuanyu Hou, Xiaoya Kong, Yu Shrike Zhang, Qian Li, Xiaohui Song, Huadong Zhao, Lixia Wang, Modeling and experimental investigation of polymer micro-part demolding from a Zr-based bulk metallic glass mold, Polymer Engineering &Science, 2019, 59(11) : 2202-2210.
[23] Xiang Zhang, Haotong Li, Zhenxing Wang, Xueye Chen, Qian Li, The microfabrication of mold for polymer microfluidic devices with Zr-based metallic glass, Biomedical Microdevices, 2018, 20(4): 96.
[22] Shujie Yan, Xiang Zhang, Liguo Zhang, Hao Liu, Xiaofeng Wang, Qian Li, Polymer scaffolds for vascular tissue engineering fabricated by combined electrospinning and hot embossing, Biomedical Materials, 2018, 13(1): 015003.
[21] 张玉星,张响*,陈文杰,张丽果,外泌体分离方法研究进展,转化医学电子杂志,2018,5(4): 42-46.
[20] 敦勃文,张响*,韩沧,刘伟鹏,张三川,铝合金轮毂冲击试验瞬态有限元分析,制造技术与机床,2018,(2):17-20.
[19] Xiang Zhang, Yongsheng Luo, Junfeng Li, Bowen Dun, Shiyang He, Shujie Yan, Qian Li, An experimental investigation and modeling of micro array replication with Zr-based bulk metallic glass using a hot embossing process, International Journal of Machine Tools & Manufacture, 2017, 117:11-22.
[18] Xiang Zhang, Ge Fang, Tengjiao Jiang, Na Zhao, Junfeng Li, Bowen Dun, Qian Li, Effects of cavity size and density on polymer micro hot embossing, International Journal of Precision Engineering and Manufacturing, 2015, 16(11): 2339-2346.
[17] Xiang Zhang, Jiang Ma, Ge Fang, Bingli Sun, Junfeng Li, Qian Li, Polymer micro molding with bulk metallic glass mold, Microsystem Technologies, 2015, 21(7): 1453-1457.
[16] Xiang Zhang, Bingli Sun, Na Zhao, Qian Li, Jianhua Hou, Weina Feng, Experimental study on the surface characteristics of Pd-based bulk metallic glass, Applied Surface Sciences, 2014, 321: 420-425.
[15] Xiang Zhang, Bingli Sun, Weina Feng, Qinxing Zhang, Qian Li, Wetting behavior of polymer melts on bulk metallic glasses. 2013 2nd International Symposium on Manufacturing Systems Engineering, July 27-29, 2013, Singapore, Singapore
[14] Jiang Ma, Xiang Zhang, Weihua Wang, Metallic glass mold insert for hot embossing of polymers, Journal of Applied Physics, 2012, 112 (2) : 024506.
[13] Xiang Zhang, Jiang Ma, Ran Bai, Qian Li, Bingli Sun, Changyu Shen, Polymer micro hot embossing with bulk metallic glass mold insert, 2012 International Conference on machinery, materials science and engineering applications, June 16-17, Wuhan, 2012, China.
[12] 张响,张世勋,李倩,申长雨,微注射成型研究进展. 高分子材料科学与工程,2012,28(5):148-152,156.
[11] 张响,李倩,石凡,申长雨,基于SPH方法的微注射成型数值模拟. 化工学报,2012,63(1):155-160.
[10] 彭禹,张响,曾金玲,均质缸内直喷汽油机混合气形成过程的数值分析. 汽车技术,2010,(11):1-7.
[9] 张响,童水光,刘 岩,徐 立,基于遗传算法的低压铸造铝合金车轮工艺优化. 材料科学与工艺,2010,18(2):233-237.
[8] Fan Shi, Xiang Zhang, Qian Li, Changyu Shen, Mold wall friction effects on micro injection molding based on simulation of MIS, 9th World Congress on Computational Mechanics (WCCM2010), July 19-23, 2010, Sydney, Australia
[7] 张响,童水光,李 倩,王利霞,董金虎,应用软计算优化气辅成型工艺. 化工学报,2008,59(2):508-513.
[6] 张响,童水光,闫胜昝,钟翠霞,朱训明,集成铸造CAE的铝合金车轮疲劳分析研究,机械工程学报,2008,44(8):45-49.
[5] 张响,童水光,闫胜昝,徐 立,朱训明, 铝合金车轮弯曲试验疲劳寿命预测研究,机械强度,2008,30(4):673-677.
[4] 张响,闫胜昝,童水光,朱训明,基于CAE的铝合金车轮低压铸造模具结构优化,汽车技术,2007,(2):39-42.
[3] 张响,童水光,朱训明,基于Taguchi方法的低压铸造铝合金车轮工艺优化,铸造技术,2007,(9):1235-1237.
[2] Xiang Zhang, Shuiguang Tong, Li Xu, Shengzan Yan, Optimization of low-pressure die casting process with soft computing, Proceedings of the 2007 IEEE International Conference on Mechatronics and Automation, August 5 - 8, 2007, Harbin, China, 619-623.
[1] 张响,董斌斌,王利霞,李倩,申长雨,基于数值模拟的气体辅助注射成型工艺控制研究. 工程塑料应用. 2004, 32(6):30-33.