基于深度学习弹性超材料带隙逆向设计研究
岳朋, 张建刚, 邱克鹏, 骆越 - 力学学报, 2025 - lxxb.cstam.org.cn
弹性超材料是一种具有超常力学和声学性能的人工微结构, 具备独特的带隙特性,
通过对其带隙的动态调控设计, 可以满足航空航天领域中重大装备对减振降噪性能的特定需求 …
通过对其带隙的动态调控设计, 可以满足航空航天领域中重大装备对减振降噪性能的特定需求 …
New trends on noise reduction for power grid by acoustic metamaterials
X Li, W Huang, Y Yu, X Pan, X Shen… - Electrical Materials …, 2024 - Wiley Online Library
Lightweight low‐frequency acoustic materials have become an important direction in the
development of acoustic protection materials for power grid facilities and equipment …
development of acoustic protection materials for power grid facilities and equipment …
Novel Active Controlof Wave Propagation Direction of Elastic Metamaterial
X Wang, J Li - papers.ssrn.com
This paper proposes a novel active control strategy of wave propagation direction of elastic
metamaterial using magnetorheological (MRE) elastomers without altering its structure. The …
metamaterial using magnetorheological (MRE) elastomers without altering its structure. The …
[PDF][PDF] MODELING AND OPTIMIZATION OF A LIGHTWEIGHT METAMATERIAL PARTITION FOR IMPROVED SOUND TRANSMISSION LOSS
The improvement of airborne sound insulation of partition walls has traditionally relied on
methods such as increasing mass or incorporating additional material layers. Locally …
methods such as increasing mass or incorporating additional material layers. Locally …