主要学术论文、专著和授权发明专利:
Ø 论文
1.Zhang G, Luo J, Sun M, Yu Y, Wang J, Chen B, Ouyang Q, Qiu Y, Chen G, Shen T, Zhang Z. Effect of soft magnetic particles content on multi-physics field of magnetorheological composite gel clutch with complex flow channel excited by Halbach array arrangement[J]. Composites Part A-Applied Science and Manufacturing, 2025, 188: 108576. (代表作-01)
2.Zhang G, Chen J, Zhang Z, Sun M, Yu Y, Wang J, Cai S. A novel parametric model for nonlinear hysteretic behaviours with strain-stiffening of magnetorheological gel composite[J]. Composite Structures, 2023, 318: 117082. (ESI高被引/热点论文,代表作-02)
3.Zhang G, Chen J, Zhang J, Zhang Z, Sun M, Yu Y, Wang J. An Experimental Study and Modeling on the Thermo-Rheological Properties of Polyurethane-Based Magnetorheological Gel[J]. Advanced Engineering Materials, 2023, 25(8): 2201345.
4.Zhang G, Chen J, Zhang Z, Sun M, Yu Y, Wang J, Cai S. Analysis of magnetorheological clutch with double cup-shaped gap excited by Halbach array based on finite element method and experiment[J]. Smart Materials and Structures, 2022, 31(7): 075008. (ESI高被引/热点论文,代表作-03)
5.Zhang G, Chen J, Zhang Z, Sun M, Yu Y, Wang J, Cai S. The influence of the temperature on the dynamic behaviors of magnetorheological Gel[J]. Advanced Engineering Materials, 2022, 24(9): 2101680. (ESI高被引/热点论文,代表作-04)
6.Zhang G, Wang J. A novel phenomenological model for predicting the nonlinear hysteresis response of magnetorheological gel[J]. Materials and Design, 2020, 196:109074. (代表作-05)
7. Zhang G, Li Y, Yu Y, Wang H, Wang J. Modeling the nonlinear rheological behavior of magnetorheological gel using a computationally efficient model[J]. Smart Materials and Structures, 2020, 29(10): 105021.
8.Zhang G, Wang H, Wang J, Zheng J, Ouyang Q. The impact of CIP content on the field-dependent dynamic viscoelastic properties of MR gels[J]. Colloids and Surfaces A Physicochemical and Engineering Aspects, 2019, 580:123596.
9.Zhang G, Li Y, Wang H, Wang J. Rheological properties of polyurethane-based magnetorheological gels[J]. Frontiers in Materials, 2019, 6: 56.
10.Zhang G, Wang H, Wang J, Zheng J, Ouyang Q. Dynamic rheological properties of polyurethane-based magnetorheological gels studied using oscillation shear tests[J]. RSC Advances, 2019, 9(18): 10124-10134.
11.Zhang G, Wang H, Wang J. Numerical analysis of multiphysical field for independent three-stage magnetorheological damper of double rod during recoil process of artillery[J]. Proceedings of the Institution of Mechanical Engineers, Part C. Journal of Mechanical Engineering Science, 2019, 233(14): 4960-4979.
12.Zhang G, Wang H, Wang J. Magnetic stimuli-response properties of polyurethane-based magnetorheological soluble gel[J]. Materials Research Express, 2019, 6(9): 096106-.
13.Zhang G, Wang H, Wang J. Development and dynamic performance test of magnetorheological material for recoil of gun[J]. Applied Physics A-Materials Science and Processing, 2018, 124(11): 781.
14.张广,汪辉兴, 王炅. 磁流变阻尼器对火炮后坐炮膛时期阻尼特性分析[J]. 振动与冲击, 2019, 38(20): 172-180+187.
15.张广,汪辉兴, 欧阳青等. 磁流变缓冲器在火炮后坐中的热流耦合场分析[J]. 上海交通大学学报, 2019, 53(04): 504-512.
16.张广, 汪辉兴, 欧阳青等. 硅树脂基磁流变胶流变特性研究及Herschel-Bulkley模型参数识别[J]. 湖南大学学报(自然科学版), 2018, 45(06): 62-71.
Ø 专利
1.张广,张晋宁,朱丰淀,罗嘉豪,李牛,陈俊宇,张征,孙敏. 一种可变活塞的阻尼可调减振器. 发明专利, 2024.08.29, 专利号: ZL202411198370.0.
2.张广,张晋宁,罗嘉豪,朱丰淀,李牛,陈俊宇,张征,孙敏. 一种高度可调的有源无源联合磁流变阻尼器. 发明专利, 2024.08.29, 专利号: ZL202411198373.4.
3.张广, 罗嘉豪, 陈俊宇,张晋宁, 汪思洋,李牛,朱丰淀,张征, 孙敏. 一种螺旋对流式的扭矩增强型旋转磁流变阻尼器. 发明专利, 2024.02.06, 专利号: ZL202410167679.7.
4.张广, 陈俊宇, 张晋宁, 张征, 孙敏. 一种建立描述磁流变阻尼器磁滞行为的新参数模型的方法. 发明专利, 2023.01.03, 专利号: ZL202211208215.3.
5.张广, 陈浙宇,张晋宁, 陈俊宇, 张征, 孙敏. 一种磁流变旋转阻尼器. 发明专利, 2022.11.28, 专利号: ZL202211501807.4.
6.孙敏, 周一松, 张征, 张广, 彭翔, 李吉泉, 吴化平. 一种磁流变弹性体驱控的多稳态机械手. 发明专利, 2022.03.25, 专利号: ZL202111654503.7.
7.张广, 汪辉兴, 王炅. 一种用于大平板表面抛光的双级串联式磁控平面抛光装置. 发明专利, 2019.09.27, 授权号: CN107378650B.
8.张广, 汪辉兴, 王炅. 基于法向力的水基磁流变封闭式柔性抛光头. 发明专利, 2019.01.11, 授权号: CN107253101B.
Ø 专著
1.Wang J, Zhang G, Wang H. Use of magnetorheological shock absorber for impact loading mitigation with individually controllable coils[M]// Magnetorheological Materials and their Applications, 2019: 93-133.