Yield stress analysis of 1D calcium and titanium precipitate-based giant electrorheological fluids

Title
Yield stress analysis of 1D calcium and titanium precipitate-based giant electrorheological fluids
Authors
최형진
Keywords
Electrorheological fluid . Yield stress . Universal equation
Issue Date
2013
Publisher
COLLOID AND POLYMER SCIENCE
Series/Report no.
COLLOID AND POLYMER SCIENCE; vol.291 no.5 startpage 1267 endpage 1270
Abstract
1D calcium and titanium composite nanorods synthesized were applied as electrorheological (ER) active materials with extremely high static yield stresses, i.e., giant ER effect. The yield stress of this giant ER fluid was analyzed using a new universal yield stress scaling equation in the form of the modified Bessel functions with two different limiting behaviors in a low and high electric field region. The universal yield stress equation collapsed the yield stress data onto a single curve.
URI
http://dspace.inha.ac.kr/handle/10505/31680
ISSN
0303-402X
Appears in Collections:
College of Engineering(공과대학) > Mechanical Engineering(기계공학) > Journal Papers, Reports(기계공학 논문, 보고서)
Files in This Item:
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