Temperature-Dependent Normalized Bouc-Wen Model for MR Damper
Author:
Publisher
Springer Nature Singapore
Link
https://link.springer.com/content/pdf/10.1007/978-981-99-8048-2_87
Reference13 articles.
1. Han W, Wang S, Rui X, Dong Y, Choi H (2022) Core/shell magnetite/copolymer composite nanoparticles enabling highly stable magnetorheological response. Int J Mech Syst Dyn 2(2):155–164
2. Jiang M, Rui XT, Zhu W, Yang FF, Zhang YN (2021) Design and control of helicopter main reducer vibration isolation platform with magnetorheological dampers. Int J Mech Mater Des 17(2):345–366
3. Jiang RL, Rui XT, Zhu W, Yang FF, Zhang YN, Gu JJ (2022) Design of multi-channel bypass magnetorheological damper with three working modes. Int J Mech Mater Des 18(1):155–167
4. Zhu HT, Rui XT, Yang FF, Zhu W, Gu JJ (2020) Semi-active scissors-seat suspension with magneto-rheological damper. Front Mater 7:591283
5. Carlson JD, Catanzarite DM, StClair KA (1996) Commercial magneto-rheological fluid devices. Int J Mod Phys B 10(23–24):2857–2865
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