Effect of Device Positions on the Vibration Damping Characteristics of Bead Panels Using a New Vibration Damping Device Consisting of a Constraint Frame and a Viscoelastic Layer / 拘束フレームと粘弾性層からなる新制振デバイスによるビードパネルの制振特性への装着位置の影響解析
- Resource Type
- Journal Article
- Authors
- Chihiro KAMIO; Kenshin SHIRAISHI; Kouyu MIYAMORI; Takao YAMAGUCHI; 宮森 恒雄; 山口 誉夫; 白石 健真; 神尾 ちひろ
- Source
- The Proceedings of Design & Systems Conference. 2022, :3304
- Subject
- Damping
FEM
Modal Strain Energy Method
- Language
- Japanese
- ISSN
- 2424-3078
This paper describes numerical simulation of the dynamic characteristics of a bead panel equipped with a new vibration control device. The device includes two blocks of viscoelastic gels and a constraint layer having a box cross section. The gel blocks are sandwiched between the constraint layer and the test structure. The modal analysis is carried out numerically using the finite element method with modal strain energy method. Effects of device positions on the vibration damping characteristics of the bead panel were evaluated using eigenmodes, modal loss factors and resonance frequencies.