Volume 26, No. 6
June 2001
A Publication of the Materials Research Society
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© Copyright 2001
Materials Research Society
All rights reserved
HIGH THERMAL CONDUCTIVITY MATERIALS
High Thermal Conductivity
Materials, 440
K. Watari and S.L. Shinde, Guest Editors
Theory of Thermal Conduction in Nonmetals,
445
G.P. Srivastava
High Thermal Conductivity Silicon Nitride
Ceramic, 451
K. Hirao, K. Watari, H. Hayashi, and M. Kitayama
Chemical-Vapor-Deposited Materials for High
Thermal Conductivity Applications, 458
J.S. Goela, N.E. Brese, M.A. Pickering, and J.E. Graebner
Thermal-Wave Probing at Various Spatial Scales,
465
D. Fournier
Metallization of High Thermal Conductivity
Materials, 471
Y. Imanaka and M.R. Notis
MATERIALS CHALLENGES FOR THE NEXT CENTURY
Materials
and the Global Environment: Waste Mining in the 21st Century, 477
R.U. Ayres, J. Holmberg, and B. Andersson
ABSTRACTS
Abstracts for July 2001 Journal of Materials Research, 481
DEPARTMENTS
Research/Researchers, 428
Technology Advances, 434
Washington News, 438
Resources,
439
Advertisers
in This Issue, 470
Library, 484
Classified,
485
[Information from the Table of Contents may be reproduced]
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ON THE COVER:
High Thermal Conductivity Materials.
Shown on the cover is a photo-thermal microscopy image of heat
transfer in a carbon-carbon composite at micrometer-scale resolution,
indicating thermal anisotropy due to the composite's lamellar
structure. Color scale indicates the phase of the periodic temperature
increase. See the technical theme that begins on p. 440.
