基本资料
马洪业(1994-),特聘副教授,硕士生导师
,中国科学院空间应用工程与技术中心工学博士,浙江省青年托举人才。在IEEE/ASME Transactions on Mechatronics,Journal of Sound and Vibration,Composite Structures,Mechanical Systems and Signal Processing,International Journal of Mechanical Sciences,Nonlinear Dynamics等国际知名期刊发表SCI期刊论文20余篇,在机械工程学报、力学学报、振动与冲击、振动工程学报发表文章各1篇,授权发明专利11项,论文引用次数1000余次。高被引论文4篇,其中一篇文章被国际著名机构“工程进展”(Advances in Engineering, AIE)遴选为关键科学文章并进行了重点报道。《低频磁刚度非线性隔振理论与方法》获得2023年度中国振动工程学会科学技术二等奖,排名2/5。研究领域包含非线性/线性隔振方法、半主动电磁阻尼减振技术、超材料吸能与减振方法。
科技的日新月异,使高精密仪器设备的工作环境对振动响应的要求愈发严苛,传统的线性隔振器因其隔振带宽窄,刚度及质量与隔振频率难以平衡,因此在高、精、尖装备中的应用受到越来越多的限制。该方向利用非线性特性,获得高静承载能力和低动刚度特性,可极大克服传统线性隔振器的不足之处,提升隔振性能,拓展隔振带宽,降低仪器设备的振动响应。
●方向2:超材料吸能与减振方法
超材料先后被Science和Material Today杂志评选为“世界十大科技突破之一”和“材料科学领域在过去50年的十大进展之一”。其潜在的重大军用和民用价值也受到了中国政府高度的关注,已将其上升为国家战略,2016年3月,“十三五”规划纲要提出:大力发展形状记忆合金、自修复材料等智能材料,石墨烯、超材料等功能材料。本研究方向隶属声学超材料和力学超材料,利用相关原理实现结构的减振降噪与弹性可重复吸能。
获奖情况
1.低频磁刚度非线性隔振理论与方法,2023年度中国振动工程学会科学技术二等奖,2/5,2023.
1. 国家自然科学基金青年基金,堆叠屈曲梁式多稳态局域共振超材料的宽带低频减振机理研究,52405138,30万,2025.1~2027.12,排名1
2. 浙江省自然科学基金青年基金,屈曲诱导式准零刚度隔振机理及电阻尼-质量协同调控,LQN25E050011,10万,2025.1~2026.12,排名1
3. 2025-2027年度浙江省科协青年人才托举培养项目,10万,排名1
参与项目
1. 国家自然科学基金委员会,优秀青年项目,52422504,低频磁刚度非线性隔振理论与方法,2025-01-01至2029-12-31,200万元,在研,参与
2. 国家自然科学基金委员会,面上项目,52175125,电磁双稳态结构的低频隔振机理及变阻尼设计研究,2022-01-01至2025-12-31,58万元,在研,参与
3. 中国科学院空间应用工程与技术中心,技术开发,24240001-J,阻尼降噪模块技术开发,2023-12至2024-06,88万元,在研,参与
4. 松德道具(长兴)科技有限公司,技术开发,24240162-J,D120大直径阻尼减振刀具振动感知及控制系统研制,2024-02至2024-12,20万元,在研,参与
发表论文
1. Yan Bo, Wang Shangwen, Ling Peng, Yang Zhibo,Ma Hongye*, Li Qinchuan. Seahorse-exoskeleton-inspired structure with linear-to-torsion transition property for low-frequency vibration isolation[J]. Fundamental Research. (https://doi.org/10.1016/j.fmre.2025.02.002)
2. 徐培迪,马洪业*,凌鹏,严博. Kresling折纸隔振器的理论模型与实验研究[J].振动工程学报.(https://link.cnki.net/urlid/32.1349.tb.20241028.1704.002)
3. Cai Changqi, Zhang Guojian, Pan Xiagui,Ma Hongye, Yan Bo*. Nonlinear dynamic characteristics of double tumblers[J]. Journal of Sound and Vibration, 2024, 589:118577.
4. Pan Xiagui, Zhang Guojian, Yu Ning, Cai Changqi,Ma Hongye, Yan Bo*. Low-frequency human motion energy scavenging with wearable tumbler-inspired electromagnetic energy harvesters[J]. International Journal of Mechanical Sciences, 2024, 268, 109029.
5. Yan Bo*, Wang Xianjia,Ma Hongye, Lu Wenqi, Li Qinchuan. Hybrid time-delayed feedforward and feedback control of lever-type quasi-zero-stiffness vibration isolators[J]. IEEE Transactions on Industrial Electronics, 2024, 71(3), 2810-2819.
6. Sun Huize, Zhao Chong*, Wang Ke, Zhao Haifeng,Ma Hongye, Zhang Lu, Xue Jing, Zhang Lixian. Shape editing of kirigami-inspired thick-panel deployable structure[J]. Mechanism and Machine Theory, 2024, 191, 105471.
7. 马原卉,凌鹏,赵杰烽,马洪业*,严博.电磁准零刚度隔振器的负载自适应滑模控制研究[J].振动工程学报.(https://zdxb.nuaa.edu.cn/zdgcxb/article/abstract/202310068)
8. Ma Hongye, Wang Ke*, Zhao Haifeng, Zhao Chong, Xue Jing, Liang Chao, Yan Bo*. Harnessing chiral buckling structure to design tunable local resonance metamaterial for low-frequency vibration isolation [J]. Journal of Sound and Vibration. 2023, 565: 117905.
9. Ling Peng, Miao Lunlun, Yu Ning,Ma Hongye, He Wen, Yan Bo∗.Anti-shock performance of a cockroach-inspired structure[J]. Aerospace Science and Technology, 2023, 142, 108640.
10. 梁超,马洪业*,王珂,严博.基于非线性谐振电路的双稳态俘能器的俘能与动力学特性研究[J].力学学报. 2023, 55(5): 1181-1194.
11. 简彬,马洪业*,王珂,严博.非线性电磁吸振器的吸振效果与动力学特性研究[J].振动与冲击. 2023, 42(6): 188-195.
12. Ma Hongye, Wang Ke*, Zhao Haifeng, Hong Yilun, Zhou Yanlin, Xue Jing, Li Qiushi, Wang Gong, Yan Bo*. Energy dissipation in multistable auxetic mechanical metamaterials[J]. Composite Structures, 2022, 304: 116410.
13. Yan Bo*, Yu Ning,Ma Hongye, Wu Chuanyu. A theory for bistable vibration isolators[J]. Mechanical Systems and Signal Processing[J], 2022, 167, 108507.
14. Ma Hongye, Wang Ke*, Zhao Haifeng, Shi Wubin, Xue Jing, Zhou Yanlin, Li Qiushi, Wang Gong, Yan Bo*. Energy dissipation and shock isolation using novel metamaterials[J]. International Journal of Mechanical Sciences, 2022, 228: 107464.
15. Ma Hongye, Wang Ke*, Zhao Haifeng, Mu Ruinan, Yan Bo*. A reusable metastructure for tri-directional energy dissipation[J]. International Journal of Mechanical Sciences, 2021, 214: 106870.
16. Yu Ning,Ma Hongye, Wu Chuanyu, Yu Gaohong, Yan Bo*. Modeling and experimental investigation of a novel bistable two-degree-of-freedom electromagnetic energy harvester[J]. Mechanical Systems and Signal Processing, 2021, 156, 107608.
17. Ma Hongye, Yan Bo*. Nonlinear damping and mass effects of electromagnetic shunt damping for enhanced nonlinear vibration isolation[J], Mechanical Systems and Signal Processing, 2021, 146: 107010. (AIE关键文章,ESI高被引论文)
18. Yan Bo*, Wang Zhihao,Ma Hongye, Bao Huihuang, Wang Ke, Wu Chuanyu. 2021. A novel lever-type vibration isolator with eddy current damping[J]. Journal of Sound and Vibration, 494: 115862. (ESI高被引论文)
19. Ma Hongye, Yan Bo*, Zhang Lu, Zheng Wenguang, Wang Pengfei, Wu Chuanyu. On the design of nonlinear damping with electromagnetic shunt damping[J]. International Journal of Mechanical Sciences, 2020, 175: 105513.
20. Yan Bo*,Ma Hongye, Zhang Lu, Zheng Wenguang, Wang Ke, Wu Chuanyu. A bistable vibration isolator with nonlinear electromagnetic shunt damping[J]. Mechanical Systems and Signal Processing, 2020, 136:106504.
21. Yan Bo*,Ma Hongye, Zhang Lu, Wu Chuanyu, Zhang Xinong. Electromagnetic shunt damping for shock isolation of nonlinear vibration isolators[J], Journal of Sound and Vibration, 2020, 479: 115370.
22. Yan Bo*,Ma Hongye, Yu Ning, Zhang Lu, Wu Chuanyu. Theoretical modeling and experimental analysis of nonlinear electromagnetic shunt damping[J]. Journal of Sound and Vibration, 2020, 471: 115184.
23. Yan Bo*, Yu Ning, Zhang Lu,Ma Hongye, Wu Chuanyu , Wang Ke, Zhou Shengxi. Scavenging vibrational energy with a novel bistable electromagnetic energy harvester[J]. Smart Materials and Structures, 2020, 29, 025022.
24. Yan Bo*,Ma Hongye, Zheng Wenguang, Jian Bin, Wang Ke, Wu Chuanyu. Nonlinear electromagnetic shunt damping for nonlinear vibration isolators[J]. IEEE/ASME Transactions on Mechatronics, 2019, 24(4): 1851-1860.
25. Zheng Wenguang, Yan Bo*,Ma Hongye, Wang Rongyang, Jia Jiangming, Zhang Lu, Wu Chuanyu. Tuning of natural frequency with electromagnetic shunt mass[J]. Smart Materials and Structures, 2019, 28, 025026.
26. Yan Bo*,Ma Hongye, Jian Bin, Wang Ke, Wu Chuanyu. Nonlinear dynamics analysis of a bi-State nonlinear vibration isolator with symmetric permanent magnets[J]. Nonlinear Dynamics, 2019, 97(4): 2499-2519.
27. 严博*,马洪业,韩瑞祥,王珂,武传宇.可用于大幅值激励的永磁式非线性隔振器[J].机械工程学报. 2019, 55(11): 169-175.
28. Yan Bo*,Ma Hongye, Zhao Chenxue, Wu Chuanyu, Wang Ke, Wang Pengfei. A vari-stiffness nonlinear isolator with magnetic effects: Theoretical modeling and experimental verification[J]. International Journal of Mechanical Sciences, 2018, 148: 745-755.
29. Yan Bo*, Yu Ning,Ma Hongye, Wu Chuanyu. 2022. A theory for bistable vibration isolators[J]. Mechanical Systems and Signal Processing, 167: 108507. (ESI高被引论文)
专利情况
1. 马洪业;王珂;赵海峰;穆瑞楠;一种基于多稳态的吸能单元体以及吸能材料,2023-01-10,中国,ZL202111041834.3(授权)
2. 马洪业;王珂;赵海峰;徐钊;张维;霍珂言;一种基于屈曲结构的连接分离装置,2023-02-28,中国,ZL202111041980.6(授权)
3. 马洪业;王珂;赵海峰;穆瑞楠;一种具有负泊松比的吸能超结构单体以及吸能超结构,2022-10-04,中国,ZL202111041829.2(授权)
4. 马洪业;王珂;赵海峰;穆瑞楠;一种自恢复多方向拉伸式吸能超材料,2021-09-07,中国,ZL202111041828.8(授权)
5. 马洪业;武传宇;童俊华;一种门把手自动组装设备及其组装门把手的方法,2019-09-03,中国,ZL201810109599.0(授权)
6. 严博;马洪业;赵晨雪;武传宇;一种半主动可控刚度非线性电磁隔振器,2019-06-28,中国,ZL201711474046.7(授权)
7. 严博;马洪业;赵晨雪;一种多功能三方向压电-电磁耦合式换能器,2023-10-31,中国,ZL201711476419.4(授权)
8. 严博;马洪业;赵晨雪;武传宇;张雷;一种快速安装、拆卸装置,2019-10-25,中国,ZL201711121822.5(授权)
9. 严博;马洪业;武传宇;张雷;包建潮;童俊华;石虎峰;一种叶轮叶片自动抓取安装装置,2019-06-25,中国,ZL201710928859.2(授权)
10. 严博;马洪业;赵晨雪;郑文广;一种空间折叠可重构光学支撑结构,2020-08-14,中国, ZL201810303651.6(授权)
11. 严博;马洪业;赵晨雪;郑文广;一种空间可重构镜面支撑结构,2023-12-22,中国,ZL201810286055.1(授权)
12. 马洪业;朱佳慧;严博;朱亮亮;屈曲诱导的半主动阻尼准零刚度隔振器,2023-10-19,中国,CN202311360083.0(受理,公开)
13. 马洪业;王珂;赵海峰;严博;振子弹簧结构、利用屈曲结构构建的共振单元体和超材料,2022-10-20中国,CN202211287821.9(受理,实质审查)
联系方式
● 通讯地址:杭州市下沙高教园区浙江理工大学15-623
● Email: mahongye@zstu.edu.cn
师资队伍