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Current Issue:

Journal of Heat Transfer

PHOTOGALLERY | August 2012
Aneet D. Narendranath, Jeramy Kimball, James C. Hermanson and Jeffrey S. Allen
J. Heat Transfer   doi: 10.1115/1.4006722
research-article | February 2014
Farzad Houshmand and Yoav Peles
J. Heat Transfer   doi: 10.1115/1.4025435
research-article | March 2013
research-article | March 2014
Photogallery | August 2013
AMR Podcast
April 01, 2014
Applied Mechanics Reviews Interview: Prof. David Barnett, part 1
24 minutes, 21 seconds

Prof. David Barnett of Stanford University is the recipient of the 2012 A.C. Eringen Medal from the Society of Engineering Science in recognition of sustained outstanding achievements in Engineering Science, including significant archival publications on topics related to the anisotropic elastic theory of crystal defects, waves in anisotropic elastic solids, non-destructive evaluation of residual stresses using ultrasonics, thermodynamics of stressed solids, modeling of diffusion in fuel cell membranes, and modeling of capacitance of atomic force microscope tips. This AMR audio interview features his personal reflections on applied mechanics and engineering science research, and the opportunities and rewards of a professional career in academia.

About This Journal

The ASME Journal of Heat Transfer disseminates information of permanent interest in the areas of heat and mass transfer. Contributions may consist of results from fundamental research that apply to thermal energy or mass transfer in all fields of mechanical engineering and related disciplines. The ASME Journal of Heat Transfer is complementary to the ASME Journal of Applied Thermal Science and Engineering Applications, which focuses on applications.

ISSN: 0022-1481
eISSN: 1528-8943
CODEN: JHTRAO
Impact Factor: 1.83
Frequency: Monthly
Scope:
The ASME Journal of Heat Transfer topical areas include, but are not limited to: biological heat and mass transfer; combustion and reactive flows; conduction; electronic and photonic cooling; evaporation, boiling and condensation; experimental techniques; forced convection; heat exchanger fundamentals; heat transfer enhancement; heat and mass transfer; heat transfer in manufacturing; jets, wakes, and impingement cooling; melting and solidification; microscale and nanoscale heat and mass transfer; natural and mixed convection; porous media; radiative heat transfer; thermal systems; and two-phase flow and heat transfer. Such topical areas may be seen in: aerospace; the environment; gas turbines; biotechnology; electronic and photonic equipment; energy systems, fire and combustion, heat pipes, manufacturing and materials processing, low temperature and arctic region heat transfer; refrigeration and air conditioning; homeland security systems; multi-phase processes; and microscale and nanoscale devices and processes. Also, archival results of research which focuses on the evaluation of thermophysical properties associated with heat and mass transfer as well as on the theory of heat and mass transfer are appropriate for the ASME Journal of Heat Transfer.

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