戴维
个人信息
Personal information
讲师(高校)
所在单位:船舶与海洋工程学院
学历:研究生(博士)毕业
学位:哲学博士学位
学科:轮机工程曾获荣誉:
2022 武汉英才
2023 中国科协青年托举人才
- [11] [9] Liu, Y., Dai, W. Shi, B.& Yang, J. Enhanced suppression of vibration response and power transfer by tailoring contact hysteresis friction. Nonlinear Dynamics. ISSN:0924-090X(2024, SCI, Q1,影响因子:5.7).
- [12] [8] Dai, W., Shi, B. & Yang, J. Vibration Isolation Performance Enhancement Using Hybrid Nonlinear Inerter and Negative Stiffness Based on Linkage Mechanism. Journal of Vibration Engineering & Technologies 12, 837–855. ISSN: 2321-3558 (2023,SCI Q3,影响因子:2.7).
- [13] [7] Dai, W., Shi, B., Li, T., Zhu, X., Yang, J., 2023. Performance Enhancement by Exploiting Geometrical Nonlinearity of Inerters in a Two-Stage Vibration Isolator. International Journal of Applied Mechanics 15 (06), 2350045.ISSN:1758-8251 (2023,SCI Q3,影响因子:3.5).
- [14] [6] Dai, W., Li, T.Y., Yang, J.: Energy flow and performance of a nonlinear vibration isolator exploiting geometric nonlinearity by embedding springs in linkages. Acta Mechanica, 233(4): 1663-1687.ISSN:0001-5970 (2022, SCI,Q3,影响因子:2.7).
- [15] [5] Dai, W., Shi, B.Y., Yang, J., Zhu, X., Li, T.Y.: Enhanced suppression of longitudinal vibration transmission in propulsion shaft system using nonlinear tuned mass damper inerter. Journal of Vibration and Control,29(11-12):2528-2538.ISSN:1077-5463 (2022, SCI,Q3,影响因子:2.8).
- [16] [4] Shi, B., Dai, W., Yang, J. Performance analysis of a nonlinear inerter-based vibration isolator with inerter embedded in a linkage mechanism. Nonlinear Dynamics,109:419–442. ISSN:0924-090X (2022, SCI, Q1,影响因子:5.7).
- [17] [3] Dai W., Yang J., Shi B.Y.: Vibration transmission and power flow in impact oscillators with linear and nonlinear constraints. International Journal of Mechanical Sciences,168: 105234.ISSN:0020-7403 (2020, SCI, Q1,影响因子:7.3).
- [18] [2] Dai, W., Yang, J.: Vibration transmission and energy flow of impact oscillators with nonlinear motion constraints created by diamond-shaped linkage mechanism. International Journal of Mechanical Sciences, 194:106212.ISSN:0020-7403(2021, SCI, Q1,影响因子:7.3).
- [19] [1] Dai, W., Yang, J., Wiercigroch, M.: Vibration energy flow transmission in systems with Coulomb friction. International Journal of Mechanical Sciences, 214:106932.ISSN:0020-7403 (2022, SCI, Q1,影响因子:7.3).