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The Journal of Thermal Stresses is a monthly peer-reviewed scientific journal covering the theoretical and industrial applications of thermal stresses. It is published by Taylor & Francis. The journal was established in 1978 with Richard B. Hetnarski (Rochester Institute of Technology) as founding editor-in-chief.
In 1978, he founded the Journal of Thermal Stresses, [32] [8] and he was its editor-in-chief for 40 years [5] [4] (1978-2018), and is now its Honorary Editor. He served (1988-1991) as an Associate Editor of Applied Mechanics Reviews. He was Editor of the 11-volume Encyclopedia of Thermal Stresses, [33] [34] 6643 pages, Springer, 2014.
Temperature gradients, thermal expansion or contraction and thermal shocks are things that can lead to thermal stress. This type of stress is highly dependent on the thermal expansion coefficient which varies from material to material. In general, the greater the temperature change, the higher the level of stress that can occur.
In addition to the sizes of the various types of particles and the steepness of the temperature gradient, the heat conductivity and heat absorption of the particles play a role. Recently, Braun and coworkers have suggested that the charge and entropy of the hydration shell of molecules play a major role for the thermophoresis of biomolecules in ...
Occupational heat stress is the net load to which a worker is exposed from the combined contributions of metabolic heat, environmental factors, and clothing worn, which results in an increase in heat storage in the body. [1] Heat stress can result in heat-related illnesses, such as heat stroke, hyperthermia, heat exhaustion, heat cramps, heat ...
The University of Washington study recently published in the journal Science ... "Importantly, the effect of the heat wave wasn’t via thermal stress on the birds, but rather shifts in the food ...
A supervisor with the Franklin County Sheriff's Office is seen with his Taser out as he steers a Michigan player out of the fray.
The heat stress response in plants is mediated by heat shock transcription factors and is well conserved across eukaryotes. HSFs are essential in plants’ ability to both sense and respond to stress. [5] The HSFs, which are divided into three families (A, B, and C), encode the expression of heat shock proteins .