TY - JOUR
T1 - Phase velocity and attenuation of plane elastic waves in a particle-reinforced composite medium
AU - Datta, S. K.
AU - Ledbetter, H. M.
AU - Shindo, Y.
AU - Shah, A. H.
N1 - Funding Information:
This studyw ass upporteidn partb y a grantf romthe Office of Naval Research(N 00014-86-K-0280; ProgramM anager:D r. Y. Rajapakse)P. artials upportw as also providedb y NationalS ciencea nd EngineerinRge searcCho uncilo fC anada(G rant# A-7988a) ndb yt heO fficeo f NondestructiEvvea luation, NBS. This work was completewd henS .K.D. held a FacultyF ellowshipa wardf romthe Universityo f Coloradoa nda FulbrightR esearchA wardat the TechnicaUl niversityo f Vienna.
PY - 1988/4
Y1 - 1988/4
N2 - Our study considered effective-plane-wave propagation, both longitudinal and shear, through a medium containing a random distribution of spherical inclusions. We assumed that the particles and matrix are separated by a thin layer of elastic material with different properties. For some systems, we predict measurable effects for the thin layers. Especially, we considered Pb-epoxy and SiCAl.
AB - Our study considered effective-plane-wave propagation, both longitudinal and shear, through a medium containing a random distribution of spherical inclusions. We assumed that the particles and matrix are separated by a thin layer of elastic material with different properties. For some systems, we predict measurable effects for the thin layers. Especially, we considered Pb-epoxy and SiCAl.
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U2 - 10.1016/0165-2125(88)90042-X
DO - 10.1016/0165-2125(88)90042-X
M3 - Article
AN - SCOPUS:0024000221
VL - 10
SP - 171
EP - 182
JO - Wave Motion
JF - Wave Motion
SN - 0165-2125
IS - 2
ER -