冯晓明教师主页

冯晓明 副教授 机械工程学院 个人邮箱： xmfeng@just.edu.cn 个人主页： http://mypage.just.edu.cn/jxgc/fxm/list.htm 办公地点： 通讯地址： 邮政编码： 传真： 您是第4431 位访问者 版权所有 © 江苏科技大学 个人简介 冯晓明，1990.09，副教授，硕士研究生导师，江苏省科技副总，中国农业机械学会地面机器系统分会委员，Coatings期刊Lead Guest Editor，Journal of Bionic Engineering、Biofunctional Materials 青年编委，Workshop Chair of ASIM 2023，Professional Membership of American Society of Mechanical Engineers (ASME)，Membership of American Chemical Society (ACS)，Membership of International Society of Bionic Engineering (ISBE)，中国机械工程学会、中国造船工程学会、中国微米纳米技术学会高级会员，Member of Colloid & Surface Chemistry Division。2019年6月毕业于吉林大学仿生科学与工程专业，师从吉林大学韩志武教授。2019年10月就职于江苏科技大学机械工程学院，主要从事仿生功能表界面/微纳功能器件的设计制造等研究。作为项目负责人主持国家自然科学基金面上1项、国家自然科学基金青年1项、江苏省高校自然科学研究面上1项、吉林大学工程仿生教育部重点实验室开放基金1项、长春理工大学跨尺度微纳制造教育部重点实验室开放基金1项、校级和横向课题多项，作为骨干参与中央JW科学技术委重点、国家自然科学基金面上和JW科学技术委培育等项目。已发表SCI检索论文20余篇，其中TOP期刊论文9篇（累计总影响因子>100，Google Scholar 引用600余次，H指数12），已申请/授权国家发明专利20余件。指导本科生创新创业训练计划1项（国家级，第一指导教师），参与省高等教育教学改革重点项目（排名第一），江苏科技大学优秀研究生学位论文（第二指导教师），主持校级教改课题2项（第二主持人）。获评江苏科技大学首聘期考核优秀，江苏科技大学机械工程学院党员先锋模范“科研之星”、人才促进工程考核优秀、教职工年度考核优秀和师德考核优秀。担任Science Advances、Advanced Functional Materials、ACS Applied Materials & Interfaces、Frontiers in Bioengineering and Biotechnology、Advanced Materials Interfaces等高水平期刊审稿人。 研究方向 机械仿生学仿生多功能表界面仿生微纳功能器件 教育经历 课程教学 担任机制、机电专业多门理论教学和实践教学课程的任课教师，主讲互换性与测量技术基础（本科生）、机械仿生设计技术（本科生）和智能仿生（研究生）。 科研项目 （1）国家自然科学基金面上项目（No.52375291），2024.01-2027.12，国家自然科学基金委，主持人。（2）国家自然科学基金青年项目（No.52005227），2021.01-2023.12，国家自然科学基金委，主持人。（3）江苏省高校自然科学研究面上项目（No.20KJB410003），2020.12-2022.12，江苏省教育厅，主持人。（4）教育部重点实验室开放基金项目（No.KF20200007），2020.10-2022.09，吉林大学工程仿生教育部重点实验室，主持人。（5）教育部重点实验室开放基金项目（No.CMNM-KF202104），2021.12-2023.11，长春理工大学跨尺度微纳制造教育部重点实验室，主持人。（6）高等教育本科教育教学改革研究重点委托项目（SJGZ20220123），排名第二。（7）本科生创新创业训练计划项目，省级重点领域，国家级，第一指导教师。（8）国家自然科学基金面上项目（No.51875244），2019.01-2022.12，参与；（9）中央军委科学技术委员会重点项目（XXXXXXXXXX），2018.10-2020.12，参与；（10）吉林省校共建计划专项项目，SF2017-3-4，2017.06-2020.07，参与；（11）中央军委科学技术委员会培育项目（XXXXXXXXXX），2017.06-2018.06，参与。 专利成果 [1].冯晓明，田桂中，张小伟，孙鹏飞，张耀升，李凤芹，赵磊.一种具有仿生多元结构的防雾防冰船舶甲板.中国，ZL202110563943.5，2021-11-26.[2].冯晓明，孙鹏飞，田桂中，张小伟，张耀升，李凤芹.一种具有自修复性的多孔结构超疏水表面制备方法.中国，ZL202110665404.2，2022-03-08.[3].冯晓明，石晋，田桂中，周宏根，赵磊，李凤芹. 一种水下航行器复合减阻方法. 中国，ZL202111430585.7，2022-09-23.[4].冯晓明，张耀升，田桂中，范东亮，孙鹏飞，陈博，张小伟，周宏根. 一种用于水洞试验的模型角度可控调节装置. 中国，ZL202110187007.9，2021-12-28.[5].冯晓明，田桂中，刘晨庆，周宏根，贾长峰，朱烨圣，范东亮，张耀升,崔杰. 一种基于图像处理的微米级河鲀表皮体刺轮廓建模方法. 中国，ZL201910957108.2，2022-02-11.[6].田桂中，范东亮，冯晓明，张耀升，石晋，孙鹏飞，周宏根.一种仿生减阻表面及其制造方法.中国，ZL 202110182804.8，2023-08-22.[7].李凤芹，田桂中，冯晓明，赵磊.一种采盐老腔底坑残渣储气实验装置及实验方法.中国，ZL202110798671.7，2022-07-19.[8].田桂中，朱烨圣，冯晓明，贾长峰，范东亮，石晋，周宏根.一种水下模型阻力测量系统及测试方法.中国，ZL202011449000.1，2022-08-19.[9].樊玉杰，许成成，田桂中，冯晓明，夏晶.一种基于润湿阶跃表面气膜产生装置及其气膜产生方法.中国，ZL202011403792.9，2022-05-13.[10].田桂中，贾长峰，周宏根，冯晓明，朱烨圣，范东亮，石晋.一种基于仿河鲀体刺的角度可调减阻装置.中国，ZL202011306348.5，2021-08-31.[11].韩志武，付佳，牛士超，冯晓明，王泽，穆正知，李博，张俊秋.一种耦合仿生降阻减粘犁头.中国，ZL201710325525.6，2019-04-26.[12].牛士超，李博，韩志武，冯晓明，穆正知，王泽，焦志彬，刘林鹏，张斌杰，褚文财.基于蝴蝶鳞片陷光特性的仿生抗反射光学膜及制备方法和用途，中国，ZL201810243405.6，2020-01-14.[13].牛士超，焦志彬，韩志武，褚文财，冯晓明，王大凯，刘林鹏，王可军，张俊秋，王泽.一种金属基水下仿生气膜减阻表面及其制备方法与应用，中国，ZL201811513829.6，2020-04-02.[14].韩志武，焦志彬，牛士超，褚文财，张俊秋，冯晓明，刘林鹏，穆正知，王泽，李博.一种金属基宽带减反射自清洁仿生复合膜及其制备与应用，中国，ZL201811513829.6，2020-06-02. 科研团队 获奖动态 教学随笔 论文著作 [1].Xiaoming Feng, Dongliang Fan, Guizhong Tian, Yaosheng Zhang. Coupled Bionic Drag-Reducing Surface Covered by Conical Protrusions and Elastic Layer Inspired from Pufferfish Skin[J]. ACS Applied Materials & Interfaces, 2022, 14(28), 32747-32760. (SCI IF:10.383, TOP期刊)[2].Xiaoming Feng, Xiaowei Zhang, Guizhong Tian. Recent advances in bioinspired superhydrophobic ice-proof surfaces: challenges and prospects[J]. Nanoscale, 2022, 14(16), 5960-5993. (SCI IF:8.307, TOP期刊)[3].Pengfei Sun (学生),Xiaoming Feng, Guizhong Tian, Xiaowei Zhang, Jiahui Chu. Ultrafast Self-Healing Superhydrophobic Surface for Underwater Drag Reduction[J]. Langmuir, 2022, 38(35), 10875-10885. (SCI IF:4.331, TOP期刊)[4].Dongliang Fan (学生),Xiaoming Feng, Guizhong Tian, Yaosheng Zhang. Experimental investigations of turbulent boundary layer for biomimetic protrusive surface inspired by pufferfish skin: effect of spinal density and diameter[J]. Langmuir, 2021, 37(40): ‏11804-11817. (SCI IF:4.331, TOP期刊)[5].Zhiwu Han (导师),Xiaoming Feng, Zhiguang Guo, Shichao Niu, and Luquan Ren. Flourishing bioinspired antifogging materials with superwettability: progresses and challenges[J]. Advanced Materials, 2018, 30(13): 1704652. (SCI IF: 32.086, TOP期刊)[6].Yaosheng Zhang, Dongliang Fan,Xiaoming Feng, Yushen Hu,  Jin Shi, Guizhong Tian. Drag reduction performance and mechanism of flexible conical microstructures film inspired by Pufferfish epidermis[J]. Ocean Engineering, 2023, 271(1), 113760. (SCI IF: 5, TOP期刊)[7].Xiaoming Feng, Pengfei Sun, Guizhong Tian. Recent developments of superhydrophobic surfaces (SHS) for underwater drag reduction: opportunities and challenges[J]. Advanced Materials Interfaces, 2022, 9(2), 2101616. (SCI IF:6.389, JCR2区)[8].Yaosheng Zhang (学生),Xiaoming Feng, Guizhong Tian, Changfeng Jia. Rheological properties and drag reduction performance of puffer epidermal mucus[J]. ACS Biomaterials Science & Engineering, 2022, 8(2), 460-469. (SCI IF:5.395, JCR2区)[9].Guizhong Tian, Yesheng Zhu,Xiaoming Feng*, Honggen Zhou, Yaosheng Zhang.Investigation of the turbulent boundary layer structure over sparsely spaced on biomimetic spine-covered protrusion surface[J]. ACS Omega. 2021, 6 (22), 14220-14229. (SCI IF:4.132, JCR2区)[10].Guizhong Tian, Yaosheng Zhang,Xiaoming Feng*, Yushen Hu. Focus on Bioinspired Textured Surfaces toward Fluid Drag Reduction: Recent Progresses and Challenges[J]. Advanced Engineering Materials, 2021, 24(1), 2100696. (SCI IF:4.122, JCR2区)[11].Xiaoming Feng, Huiying Guan, Ze Wang, Shichao Niu, Zhiwu Han. Biomimetic slippery PDMS film with papillae-Like microstructures for antifogging and self-Cleaning[J]. Coatings, 2021, 11 (2), 238. (SCI IF:3.236, JCR2区)[12].Xiaoming Feng, Changfeng Jia, Dongliang Fan, Yushen Hu, Guizhong Tian. Numerical analysis of drag reduction characteristics of biomimetic puffer skin: effect of spinal arrangement[J]. AIP Advances. 2021, 11(6), 065223. (SCI IF:1.697, JCR3区)[13].Xiaoming Feng, Guizhong Tian, Shichao Niu, Honggen Zhou. Coupled superhydrophilic PMMA film with inverted-pyramid-microstructures for antireflection and antifogging properties[J]. Coatings, 2021, 11 (9), 1107. (SCI IF:3.236, JCR2区)[14].Jin Shi, Honggen Zhou,Xiaoming Feng*, Guizhong Tian, Zhongxu Lian. Effect of the biomimetic spine-covered protrusions (BSCPs) height and arrangement on SUBOFF bare hull model drag[J]. Arabian Journal for Science and Engineering, 2022. (DOI:10.1007/s13369-022-07027-6) (SCI IF: 2.807, JCR2区)[15].Guizhong Tian, Jin Shi, Yushen Hu, Honggen Zhou,Xiaoming Feng*. Numerical-Experimental Study on the Influence of the Biomimetic Spine-Covered Protrusions (BSCPs) Structure on the Base Pressure and Near-Wake Flow of Underwater Vehicles[J]. Arabian Journal for Science and Engineering, 2022, 47(6), 6821-6835. (SCI IF:2.807, JCR2区)[16].Zhiwu Han (导师),Xiaoming Feng, Zhibin Jiao, Ze Wang, Junqiu Zhang, Jie Zhao, Shichao Niu, and Luquan Ren. Bio-inspired antifogging PDMS coupled micro-pillared superhydrophobic arrays and SiO2 coatings[J]. RSC Advances, 2018, 8(47): 26497-26505. (SCI IF: 4.036, JCR2区)[17].Huiying Guan,Xiaoming Feng, Junqiu Zhang, Shichao Niu, Zhiwu Han. Phragmites communis leaves with anisotropy, superhydrophobicity and self-cleaning effect and biomimetic polydimethylsiloxane (PDMS) replicas[J]. Coatings, 2019, 9(9): 541. (SCI IF: 3.236, JCR2区)[18].Guizhong Tian, Dongliang Fan,Xiaoming Feng, Honggen Zhou. Thriving artificial underwater drag-reduction materials inspired from aquatic animals: progresses and challenges[J]. RSC Advances. 2021, 11 (6), 3399-3428. (SCI IF:4.036, JCR2区)[19].Zhiwu Han, Jia Fu,Xiaoming Feng, Shichao Niu, Junqiu Zhang, and Luquan Ren. Bionic anti-adhesive electrode coupled with maize leaf microstructures and TiO2 coating[J]. RSC Advances, 2017, 7(72): 45287-45293. (SCI IF: 4.036, JCR2区)[20].Ze Wang, Bo Li,Xiaoming Feng, Zhibin Jiao, Junqiu Zhang, Shichao Niu, Zhiwu Han, and Luquan Ren. Rapid fabrication of bio-inspired antireflection film replicating from cicada wings[J]. Journal of Bionic Engineering, 2020, 17(1): 34-44. (SCI IF:2.995, JCR2区)[21].Zhiwu Han, Ze Wang,Xiaoming Feng, Bo Li, Zhengzhi Mu, Junqiu Zhang, Shichao Niu, and Luquan Ren. Antireflective surface inspired from biology: A review[J]. Biosurface & Biotribology, 2016, 2(4): 137-150.[22].Zhiwu Han, Zhengzhi Mu, Bo Li,Xiaoming Feng, Ze Wang, Junqiu Zhang, Shichao Niu, and Luquan Ren. Bio-inspired omnidirectional self-stable reflectors with multiscale hierarchical structures[J]. ACS Applied Materials & Interfaces, 2017, 9(34): 29285-29294. (SCI IF: 10.383, TOP期刊)[23].Zhiwu Han, Ze Wang, Bo Li,Xiaoming Feng, Zhibin Jiao, Junqiu Zhang, JieZhao, Shichao Niu, and Luquan Ren. Flexible self-cleaning broadband antireflective film inspired by the transparent cicada wings[J]. ACS Applied materials & Interfaces, 2019, 11(18): 17019-17027. (SCI IF: 10.383, TOP期刊)[24].Honggen Zhou, Chenqing Liu, Guizhong Tian,Xiaoming Feng. Research on the drag reduction property of puffer (Takifugu flavidus) spinal nonsmooth structure surface[J]. Microscopy Research and Technique. 2020, 83, 795-803. (SCI IF:2.893, JCR1区)[25].Honggen Zhou, Yesheng Zhu, Guizhong Tian,Xiaoming Feng, Yaosheng Zhang. Experimental investigations of the turbulent boundary layer for biomimetic surface with spine-covered protrusion inspired by pufferfish skin[J]. Arabian Journal for Science and Engineering. 2021, 46 (3), 2865-2875. (SCI IF: 2.807, JCR2区)[26].Honggen Zhou, Changfeng Jia, Guizhong Tian,Xiaoming Feng. Numerical analysis of drag reduction characteristics of biomimetic puffer skin: effect of spinal height and tilt angle[J]. Journal of Nanoscience and Nanotechnology. 2021, 21 (9), 4615-4624.,个人首页 科研项目 论文著作 专利成果 科研团队 获奖动态 教学随笔