| 张帅军 讲师 学位:工学博士 职称:讲师、硕士生导师 职位:无 毕业院校:吉林大学 联系方式:shuaijunzh@163.com |
个人简介
主要从事结构仿生、仿生表界面等研究。截至目前,在Friction、Wear等高水平期刊发表SCI论文18篇,授权国家发明专利6件。作为项目负责人,主持河南省自然科学基金项目(青C)、河南省科技攻关项目、河南省超硬磨料磨削装备重点实验室开放基金重点项目、工程仿生教育部重点实验室开放基金项目;同时作为学术骨干,参与国家重点研发计划、装备预研教育部联合基金、国防科技创新特区等科研项目。现为河南省“科技副总”、国际仿生工程学会会员、中国机械工程学会会员。 |
研究方向
结构仿生 仿生表界面 仿生软体防护 |
教育背景
2021.10-2023.10,清华大学,机械工程,博士后\助理研究员 2018.09-2021.09,吉林大学,农业工程(仿生科学与工程),博士 2015.09-2018.06,河南农业大学,农业机械化工程,硕士 2011.09-2015.06,河南农业大学,农业机械化及其自动化,学士 |
开设课程
《工程制图》 《流体力学与流体传动》 |
科研项目
1.河南省自然科学基金项目(青C) 仿巨骨舌鱼鳞甲多级界面强化机制的灾后搜救软体机器人抗穿刺研究 主持 2.河南省科技攻关项目 仿巨骨舌鱼鳞片的耐磨轻质高强韧材料设计与制备技术研究 主持 3.河南省超硬磨料磨削装备重点实验室开放基金重点项目 基于巨骨舌鱼鳞片的耐磨轻质高强韧砂轮材料仿生研究 主持 4.工程仿生教育部重点实验室开放基金项目 仿巨骨舌鱼鳞片高强韧材料的微纳摩擦磨损行为规律与耐磨设计 主持 |
论文专著与专利
1.Zhang S, Bai P, Yang W, et al. Frictional anisotropic effect of asymmetric structure on flexibility and protective performance of biomimetic flexible protection system[J]. Journal of Bionic Engineering, 2026: 1-14.(新锐期刊2区,中国科技期刊卓越行动计划-梯队期刊) 2.Zhang S, Bai P, Wen X, et al. Effects of surface morphology on tribological properties of arapaima gigas scales[J]. Friction, 2024, 12(7): 1469-1482.(中科院1区TOP,中国科技期刊卓越行动计划-领军期刊,封面文章) 3.Zhang S, Zhang J, Yu H, et al. Large-area preparation strategy and anti-erosion mechanism for morphology-material coupled biomimetic anti-erosion functional surface[J]. Wear, 2023, 530: 205008. (中科院1区TOP) 4.Zhang S, Chen W, Li B, et al. Optimum anti-erosion structures and anti-erosion mechanism for rotatory samples inspired by scorpion armor of parabuthus transvaalicus[J]. Journal of Bionic Engineering, 2021, 18(1): 92-102. (中科院2区,中国科技期刊卓越行动计划-梯队期刊). 5.Zhang S, Zhang J, Zhu B, et al. Progress in bio-inspired anti-solid particle erosion materials: Learning from nature but going beyond nature[J]. Chinese journal of mechanical engineering, 2020, 33(1): 42. (中科院2区,中国科技期刊卓越行动计划-重点期刊,封面文章,年度优秀论文). 6.Tong S, Wei S,Zhang S, et al. Study on the tribological performance of Cr-V alloy steel assisted by the random forest algorithm[J]. Materials & Design, 2025: 114869.(中科院2区). 7.Tong S,Zhang S, Chen C, et al. Building a composition-microstructure-performance model for C-V-Cr-Mo wear-resistant steel via the thermodynamic calculations and machine learning synergy[J]. Journal of Materials Research and Technology, 2025, 36: 4308-4320. (中科院2区). 8.Yu H, Liu H,Zhang S, et al. Prediction of gas–solid erosion wear of bionic surfaces based on machine learning and unimodal intelligent optimization algorithm[J]. Engineering Failure Analysis, 2024, 163: 108453.(中科院2区). 9.Wen C, Bai P, Zhang H, et al. Theoretical model development and mixed lubrication analyses of rolling piston type rotary compressors: A Review[J]. Lubricants, 2024, 12(8): 273.(中科院3区). 10.Tong S, Wei S, Liu Y, et al. Predicting wear resistance of high-carbon Cr-V alloy steel based on machine learning[J]. Materials Today Communications, 2024, 40: 110231.(中科院3区). 11.Yang W, Bai P, Cao H, et al. Thermoelastic contact responses of transversely isotropic coating considering heat partition[J]. Applied Thermal Engineering, 2023, 227: 120399.(中科院2区). 12.Yu H, Zhang J, Zhang S, et al. Bionic structures and materials inspired by plant leaves: A comprehensive review for innovative problem-solving[J]. Progress in Materials Science, 2023, 139: 101181. (中科院1区,IF: 37.4) 13.Yu H, Shao L, Zhang S, et al. A new erosive wear resistance strategy for curved surfaces based on combined bionics[J]. Tribology International, 2023, 180: 108226. (中科院1区) 14.Yu H, Liu H, Zhang S, et al. Research progress on coping strategies for the fluid-solid erosion wear of pipelines[J]. Powder Technology, 2023, 422: 118457. (中科院2区) 15.Yu H, Zhang W, Zhang S, et al. Optimization of hydrodynamic properties of structured grinding wheels based on combinatorial bionics[J]. Tribology International, 2022, 173: 107651.(中科院1区) 16.Yu H, Shao L, Zhang S, et al. An innovative strategy of anti-erosion: Combining bionic morphology and bionic arrangement[J]. Powder Technology, 2022, 407: 117653. (中科院2区) 17.Yu H, Han Z, Zhang J, et al. Bionic design of tools in cutting: Reducing adhesion, abrasion or friction[J]. Wear, 2021, 482: 203955. (中科院2区) 18.Bai X, Yao Y, Han Z, et al. Study of solid particle erosion on helicopter rotor blades surfaces[J]. Applied Sciences, 2020, 10(3): 977. (中科院4区) 授权发明专利 1.田煜;张帅军;白鹏鹏;温相丽;一种仿生复合材料及其制备方法, 2023-04-20,中国, CN 202310430095.X 2.韩志武,张帅军,张俊秋,王大凯,牛士超,尹维,陈文娜,陈思琪,王可军,陈道兵,穆正知,李博,冯晓明,王泽,孙涛,侯涛,叶军锋,韩奇钢.一种离心式风机叶轮,2019-12-24,中国,CN 201910093663.5. 3.韩志武,张帅军,张俊秋,于海越,牛士超,王大凯,尹维,侯涛,刘庆萍,任露泉.形态-材料协同仿生抗冲蚀功能表面结构及其制备方法,2021-06-29,中国,CN 201910712922.8. 4.韩志武,王大凯,张俊秋,张帅军,牛士超,尹维,陈文娜,孙涛,陈思琪,王可军,陈道兵,穆正知,李博,王泽,冯晓明,侯涛,叶军锋,韩奇钢.一种抗冲蚀玉米收获机筛板,2020-09-01,中国,CN 201910093664.X. 5.韩志武,王大凯,张俊秋,张帅军,牛士超,陈文娜,陈道兵,尹维,陈思琪,孙涛,穆正知,李博,王泽,冯晓明,侯涛,叶军锋,韩奇钢.一种抗冲蚀三通管接头,2020-08-28,中国,CN 201910094309.4. 6.余泳昌,汤亚东,张帅军,马帅超,刘新萍,李祥付,李保谦,史景钊,李赫,李长红.一种农业智能喷洒系统及方法,2022-06-28,中国,CN201710033566.8 |