姓名 张刚强       
  • 职称:讲师

  • 联系电话:

  • 电子邮件:cris8866@163.com

  • 联系地址:青岛大学国家重点实验室514室

【个人简介】

张刚强,男,工学博士,讲师,青岛大学青年卓越人才。

2017.12 获荷兰特文特大学工程学博士学位;

2018.09 获上海交通大学化学工程与技术专业博士学位;

2018.11 至今在青岛大学从事教学与科学研究工作。

【研究方向】

1.纺织品功能整理

2.纺织纤维和高分子材料改性

3.功能生物材料摩擦特性研究

【研究成果】

1. Zhang Gangqiang, Zeng Xiangqiong, Ren Tianhui, van der Heide E. Influence of surgical suture properties on the tribological interactions with artificial skin by a capstan experiment approach. Friction. 2017;5:87-98.

2. Zhang Gangqiang, Zeng Xiangqiong, Ren Tianhui, van der Heide E. Development of a penetration friction apparatus (PFA) to measure the frictional performance of surgical suture. Journal of the Mechanical Behavior of Biomedical Materials. 2017;74:392-9.

3. Zhang Gangqqiang, Ren Tianhui, Zhang Sheng, Zeng Xiangqiong, van der Heide E. Study on the tribological behavior of surgical suture interacting with a skin substitute by using a penetration friction apparatus. Colloids and Surfaces B-Biointerfaces. 2018;162:228-35.

4. Zhang Gangqiang, Zeng Xiangqiong, Su Yibo, Borras FX, de Rooij MB, Ren Tianhui, Influence of suture size on the frictional performance of surgical suture evaluated by a penetration friction measurement approach. Journal of the Mechanical Behavior of Biomedical Materials. 2018;80:171-9.

5. Zhang Gangqiang, Zheng Ganlin, Ren Tianhui, Zeng Xiangqiong, van der Heide E. Dopamine hydrochloride and carboxymethyl chitosan coatings for multifilament surgical suture and their influence on friction during sliding contact with skin substitute. Friction. 2018:1-13.5.

6. Zhang, Gangqiang.; Xu, Yong.; Xiang, Xianzheng.; Zheng, Ganlin.; Zeng, Xiangqiong.; Li, zhipeng.; Ren, Tianhui.; Zhang, Yadong., Tribological performances of highly dispersed graphene oxide derivatives in vegetable oil. Tribology International 2018, 126, 39-48.,

7. Wang, Qianqian.; Zhang, Lin.; Liu, Yanan.; Zhang, Gangqiang*.; Zhu, ping*., Characterization and functional assessment of alginate fibers prepared by metal-calcium ion complex coagulation bath. Carbohydrate Polymers 2020, 232, 115693.