_张泳柔 | 中山大学航空航天学院

球速体育

张泳柔

应用力学与工程系特聘副研究员

教育背景：

2017年，工科博士，华南理工大学，固体力学

2013年，工科学士，华南理工大学，工程力学（创新班）

研究经历：

2022年5月至今，中山大学/航空航天学院，特聘副研究员

2018年1月至2022年2月，广东省科学院智能制造研究所，博士后/技术研究员

研究兴趣：

冲击力学实验技术

生物软物质的力学行为表征及其损伤机理

学术专著：

1、汤立群, 张泳柔. 水凝胶的力学行为实验与数值表征及本构关系. 科学出版社. 2023年11月1日. ISBN: 978-7-03-076950-3

学术论文：

1、Qingfei Ren#, Yongrou Zhang#, Lingling Hu*, Yinqiu Yun, Liqun Tang. Achieving synchronous compression-shear loading on SHPB by utilizing mechanical metamaterial [J]. International Journal of Impact Engineering, 2024, 186: 104888. DOI: 10.1016/j.ijimpeng.2024.104888

2、Jingyu Wang#, Yongrou Zhang#, Zuyue Lei, Junqi Wang, Yangming Zhao, Taolin Sun*, Zhenyu Jiang, Licheng Zhou, Zejia Liu, Yiping Liu, Bao Yang, Liqun Tang*. Hydrogels with Brain Tissue-like Mechanical Properties in Complex Environments [J]. Materials & Design, 2023, 234: 112338. DOI: 10.1016/j.matdes.2023.112338

3、Jingyu Wang#, Yongrou Zhang#, Zhenyu Jiang, Licheng Zhou*, Zejia Liu, Yiping Liu, Bao Yang, Liqun Tang**. Mechanical behavior and constitutive equations of porcine brain tissue considering both solution environment effect and strain rate effect [J]. Mechanics of Advanced Materials and Structures. 2023, DOI: 10.1080/15376494.2022.2150917.

4、Yuting Zhang#, Yongrou Zhang#, Liqun Tang*, Zejia Liu, Zhenyu Jiang, Yiping Liu, Licheng Zhou, Xuefeng Zhou. Uniaxial compression constitutive equations for saturated hydrogel combined water-expelled behavior with environmental factors and the size effect [J]. Mechanics of Advanced Materials and Structures, 2022, 29(28): 7491-7502, DOI: 10.1080/15376494.2021.2000682

5、Yongrou Zhang, Zetao Huang, Shoubin Dong, Zejia Liu*, Yiping Liu, Liqun Tang, Taobo Cheng, Xuefeng Zhou**. Evaluation of Cell’s Passability in ECM Network [J]. Biophysical Journal, 2020, 119(6):1056-1064, DOI: doi.org/10.1016/j.bpj.2020.07.032

6、Y.R. Zhang, K.J. Xu, Y.L. Bai, L.Q. Tang*, Z.Y. Jiang, Y.P. Liu, Z.J. Liu, L.C. Zhou, X.F. Zhou. Features of the volume change and a new constitutive equation of hydrogels under uniaxial compression [J]. Journal of the Mechanical Behavior of Biomedical Materials, 2018, 85:181-187. DOI: 10.1016/j.jmbbm.2018.06.004

7、Y.R. Zhang, L.Q. Tang*, B.X. Xie, K.J. Xu, Z.J. Liu, Y.P. Liu, Z.Y. Jiang, S.B. Dong. A Variable Mass Meso-Model for the Mechanical and Water-Expelled Behaviors of PVA Hydrogel in Compression [J]. International Journal of Applied Mechanics, 2017, 9(3):1750044. DOI: 10.1142/s1758825117500442

8、任清非, 张泳柔, 胡玲玲*, 尹梓霁. 基于超材料的动态压剪复合加载实验新方法 [J]. 爆炸与冲击, 2024, 44(10), DOI: 10.11883/bzycj-2024-0297

9、王敬谕, 吕苏磊, 陈雅辉, 倪萍, 张泳柔**, 汤立群*. 猪脑组织在不同环境中的准静态力学行为[J]. 实验力学, 2021, 36(4): 451-457. DOI: 10.7520/1001-4888-21-037

10、张泳柔, 许可嘉, 汤立群*, 刘逸平, 蒋震宇, 刘泽佳. 免夹持水凝胶材料拉伸试验技术[J]. 实验力学, 2017, 32(2):197-201.

11、Peidong Xu; Liqun Tang*; Yongrou Zhang*; Ping Ni; Zejia Liu; Zhenyu Jiang; Yiping Liu; Licheng Zhou. SHPB experimental method for ultra-soft materials in solution environment [J]. International Journal of Impact Engineering, 2022, 159:104051. DOI: 10.1016/j.ijimpeng.2021.104051

12、Zeyu Zuo#, Yongrou Zhang#, Licheng Zhou*, Zejia Liu, Zhenyu Jiang, Yiping Liu, Liqun Tang*. Mechanical behaviors and probabilistic multiphase network model of polyvinyl alcohol hydrogel after being immersed in sodium hydroxide solution[J]. RSC Advanced, 2021,11(19): 11468-11480. DOI: 10.1039/d1ra00653c

13、Rong Ding, Xinyuan Wang, Liqun Tang*, Yongrou Zhang*, Zejia Liu, Zhenyu Jiang, Liping Liu, Licheng Zhou. A new method to study contributions of polymer fibers and water respectively to the hydrogel stress under tension and compression using 3D micro-fiber network model[J]. International Journal of Applied Mechanics, 2021, 13(4), No. 2150048, DOI: 10.1142/S1758825121500484

14、Beixin Xie, Peidong Xu, Liqun Tang*, Yongrou Zhang, Kejia Xu, Hong Zhang, Zejia Liu, Licheng Zhou, Yiping Liu, Zhenyu Jiang. Dynamic mechanical properties of PVA hydrogels measured by double-striker electromagnetic driving SHPB system[J]. International Journal of Applied Mechanics, 2019, 11(2): 1950018. DOI: 10.1142/s1758825119500182

15、Kejia Xu, Liqun Tang*, Yongrou Zhang, Rong Ding, Xinyuan Wang, Dafei Huang, Jiansheng Lin. Study on the Microscopic Network Model of PVA Hydrogel Based on the Tensile Behavior[J]. Acta Mechanica Solida Sinica, 2019, 32:663-674. DOI: 10.1007/s10338-019-00092-9

16、Lifeng Li, Li Ren, Lin Wang, Sa Liu, Yongrou Zhang, Liqun Tang, Yingjun Wang*. Effect of water state and polymer chain motion on the mechanical properties of a bacterial cellulose and polyvinyl alcohol (BC/PVA) hydrogel[J]. Rsc Advances, 2015, 5(32):25525-25531. DOI: 10.1039/c4ra11594e

17、Shoubin Dong, Zetao Huang, Liqun Tang*, Xiaoyang Zhang, Yongrou Zhang, Yi Jiang. A three-dimensional collagen-fiber network model of the extracellular matrix for the simulation of the mechanical behaviors and micro structures[J]. Computer Methods in Biomechanics and Biomedical Engineering, 2017, 20(9):991-1003. DOI: 10.1080/10255842.2017.1321113

18、谢倍欣，汤立群，姜锡权，史景伦，赵伟健，佘瀚笙，张泳柔，刘逸平，蒋震宇. 用于软材料的双子弹电磁驱动SHPB系统[J]. 爆炸与冲击，2018，DOI： 10.11883/bzycj-2017-0394

19、谢倍欣, 汤立群, 张晓阳, 刘逸平, 张泳柔,等. 基于数字图像的分离式霍普金森压杆实验中试件应变及两端应力的同步测量法[J]. 实验力学, 2014, 29(6):683-688.

20、ZHANG Yongrou, Wang Da, ZHOU Xuefeng*, CHENG Taobo, HUANG DAN. A Kinematic Model for Soft Robot Based on Double Laminate Plate Theory [C]. IEEE International conference on Robotics and Biomimetics. Kuala Lumpur, Malaysia, December 12-15, 2018

专利：

1、许可嘉, 张泳柔, 汤立群. 基于回型试件的水凝胶材料单轴拉伸实验测量方法, 发明专利, 专利号:ZL 2016 0 0504257. X

2、汤立群, 谢倍欣, 张晓阳, 刘逸平, 蒋震宇, 刘泽佳, 张泳柔, 等. 基于数字图像的分离式霍普金森压杆实验的同步测量方法, 发明专利, 专利号:ZL 2014 1 0476610. 9

3、张泳柔, 周雪峰, 唐观荣, 程韬波. 一种脑组织圆柱形试件制备器的制作方法, 发明专利, 专利号：ZL 2021 1 0137741.4, 发明专利申请公布号: CN112829302A, 授权公告号: CN112829302B

4、王敬谕, 孙桃林, 汤立群, 张泳柔，刘逸平，蒋震宇，刘泽佳，周立成，杨宝. 制作实物仿脑模型的透明SA-DN-NP复合凝胶材料的制备方法, 发明专利, 专利号：ZL 2022 1 0628401.6

5、张泳柔, 周雪峰, 唐观荣, 程韬波. 一种基于路径规划的靶向机器人运动优化方法及系统, 发明专利, 申请号：202010631789.6, 发明专利申请公布号: CN111783341A

6、胡玲玲, 张泳柔, 任清非. 压缩-剪切或拉伸-剪切同步加载的实验装置和实验方法, 发明专利, 申请号：202311697225.2

7、张泳柔，汤立群，徐智浩，唐观荣. 配合霍普金森压杆实验系统的溶液环境箱, 实用新型专利, 申请号：202422184244.1

研究项目：

1、国家自然科学基金青年项目，No.11802062，主持

2、广州市基础与应用基础研究，No. 202102020207，主持

3、国家自然科学基金重点项目，No.11932007，参与

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