Ultrasonic assembly of short fibre reinforced composites

Author

Scholz, Marc-S ; Drinkwater, Bruce ; Trask, Richard S.

Author_Institution

Dept. of Aerosp. Eng., Univ. of Bristol, Bristol, UK

fYear

2014

fDate

3-6 Sept. 2014

Firstpage

369

Lastpage

372

Abstract

Taking a counter-propagating wave approach, a new type of device was developed to fabricate thin layers of anisotropic material. To investigate the effects of various design parameters, enhance device performance, and improve the composite fabrication process, finite element (FE) analysis was employed. Specifically, the COMSOL Multiphysics package was used to couple together the equations of structural mechanics, piezo-electric devices, and pressure acoustics in a single model. Special attention was paid to the shape and quality of the acoustic standing wave field, the magnitude of the resulting radiation forces, and the response of fibrous particles to ultrasonic pressure gradients. Further, the formation of structurally interesting fibre architectures was explored by studying the possible standing wave patterns in the device´s particle manipulation cavity.

Keywords

acoustic intensity; fibre reinforced composites; finite element analysis; ultrasonics; COMSOL Multiphysics package; acoustic radiation force; acoustic standing wave field; anisotropic material; counterpropagating wave approach; design parameters; finite element analysis; piezoelectric devices; pressure acoustics; short fibre reinforced composites; structural mechanics; ultrasonic assembly; ultrasonic pressure gradient; Acoustics; Biological system modeling; Imaging; Power supplies; Resins; Substrates;

fLanguage

English

Publisher

ieee

Conference_Titel

Ultrasonics Symposium (IUS), 2014 IEEE International

Conference_Location

Chicago, IL

Type

conf

DOI

10.1109/ULTSYM.2014.0091

Filename

6931966