Title :
Large Magnetostriction in Epoxy-Bonded Terfenol-D Continuous-Fiber Composites with [112] Crystallographic Orientation
Author :
Lo, C. ; Or, S. ; Chan, H.
Author_Institution :
Hong Kong Polytech. Univ., Kowloon
Abstract :
In this work, the processes for making continuous fibers and their composites were discussed. The magnetic and magnetostrictive properties of a 50-vol% continuous-fiber composite were reported, together with a monolithic Terfenol-D, as a function of magnetic field with zero stress bias. A short-fiber composite and a particulate composite, both with about 50-vol% Terfenol-D, were also prepared and characterized for comparison. The continuous-fiber composite has the largest lambdas of 1270 ppm, which is about 14, 23, and 93% larger than the monolithic Terfenol-D, short-fiber composite, and particulate composite, respectively. The higher lambdas when compared to monolithic Terfenol-D is mainly attributed to the residual compressive stresses developed in the fibers during epoxy curing.
Keywords :
compressive strength; crystal orientation; curing; fibre reinforced plastics; internal stresses; magnetisation; magnetostriction; particle reinforced composites; polymer fibres; continuous-fiber composites; crystallographic orientation; epoxy curing; epoxy-bonded Terfenol-D; magnetic field; magnetic properties; magnetization; magnetostriction; monolithic Terfenol-D; particulate composite; residual compressive stresses; short-fiber composite; Composite materials; Compressive stress; Crystalline materials; Crystallography; Magnetic fields; Magnetic materials; Magnetic properties; Magnetostriction; Physics; Saturation magnetization;
Conference_Titel :
Magnetics Conference, 2006. INTERMAG 2006. IEEE International
Conference_Location :
San Diego, CA
Print_ISBN :
1-4244-1479-2
DOI :
10.1109/INTMAG.2006.376399
