Annual Review of Heat Transfer
Objectifs et champs d'application
The volumes of Annual Review of Heat Transfer published up to 2005 had been created and edited by Professor Chang-Lin Tien who passed away in 2002. Chang-Lin had an immense and long-lasting impact on the heat transfer community through his pioneering research and community service in heat transfer. This series, itself, is a product of Chang-Lin's leadership and dedicated service. The present Editors decided to use Volume XIV as a bridge between the past and the future, by summarizing Chang-Lin's contributions and reviewing current and future research directions in areas in which Professor Tien made a significant impact. In this volume we have divided his contributions into six topical areas: radiation and combustion, micro/nanoscale heat transfer, phase change and heat pipes, porous media, materials processing and laser materials interactions, and energy systems.
The previous volumes of Annual Review in Heat Transfer reflect all aspects of heat transfer and fluid flow as depicted by an array of the top international specialists in the field. Future volumes are being planned to include the modern achievements in the thermal and fluids sciences.
La plupart des articles téléchargés
THE ATOMISTIC GREEN'S FUNCTION METHOD FOR INTERFACIAL PHONON TRANSPORT
PREDICTING PHONON PROPERTIES FROM EQUILIBRIUM MOLECULAR DYNAMICS SIMULATIONS
THERMAL TRANSPORT IN POLYMERS
COMPREHENSIVE REVIEW OF HEAT TRANSFER IN THERMOELECTRIC MATERIALS AND DEVICES
ARHT Digital Library
Illustration of composite TIMs with a percolation of spherical nanoparticles, and high aspect ratio nanowires. NANOSTRUCTURED THERMAL INTERFACES
Photograph of copper/diamond sintered wick structure. RECENT ADVANCES IN TWO-PHASE THERMAL GROUND PLANES
The microchannel with a single pillar used by Jung et al., and an SEM image of the pillar with a flow control slit at 180 deg (facing downstream). ADVANCED CHIP-LEVEL LIQUID HEAT EXCHANGERS
Schematics of thermal boundary conductance calculations. NONEQUILIRIUM MOLECULAR DYNAMICS METHODS FOR LATTICE HEAT CONDUCTION CALCULATIONS
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