Development of a multi-material underwater anisotropic acoustic metamaterial
- Resource Type
- Authors
- Robert W. M. Smith; Benjamin S. Beck; Peter Kerrian; Amanda D. Hanford; Dean E. Capone
- Source
- The Journal of the Acoustical Society of America. 141:3641-3641
- Subject
- Bulk modulus
Materials science
Acoustics and Ultrasonics
business.industry
Isotropy
Multi material
Metamaterial
Material Design
Effective mass (solid-state physics)
Optics
Arts and Humanities (miscellaneous)
Underwater
Anisotropy
business
- Language
- ISSN
- 0001-4966
Previous work in the open literature has described three potential ways to create an acoustic metamaterial with anisotropic mass density and isotropic bulk modulus: (1) alternating layers of homogeneous isotropic materials, (2) perforated plates, and (3) solid inclusions. The primary focus of this work will be to experimentally demonstrate the anisotropic behavior of a metamaterial comprised of a multi-solid inclusion unit cell in water. The two material design of the unit cell consists of one material more dense and one less dense than the background fluid, which results in an effective mass density tensor for the unit cell where one component is more dense and one component is less dense than the background fluid. Successful demonstration of an anisotropic metamaterial with these effective parameters is an important step in the development of structures based on transformational acoustics.