350 rub
Journal Nonlinear World №2 for 2017 г.
Article in number:
Study of elastocaloric effect in Ti<sub>2</sub>NiCu melt spun ribbons for a solid-state cooling
Keywords: elastocaloric effect melt spun ribbons shape memory effect solid-state refrigerators
Authors:
V.V. Koledov - Dr.Sc. (Phys.-Math.), Leading Research Scientist, Kotelnikov IRE RAS (Moscow) E.V. Morozov - Leading Engineer, Kotelnikov IRE RAS (Moscow) S.Y. Fedotov - Engeneer, Kotelnikov IRE RAS (Moscow) V.G. Shavrov - Dr.Sc. (Phys.-Math.), Head of Laboratory, Kotelnikov IRE RAS (Moscow) A.V. Shelyakov - Ph.D. (Phys.-Math.), Head of Laboratory, MEPhI
Abstract:
This paper is devoted to the experimental study of the elastocaloric effect (ECE) in melt spun ribbon Ti2NiCu alloy at the periodic action of the tensile force. The maximum value of ECE observed at an initial temperature of 52 °C, elongation of 1,5% and a frequency of 0.2 Hz cycles was found to be 7,5 oC. With increasing frequency from 0.2 Hz to 4 Hz the ECE falls in magnitude. The specific power density of the sample was estimated.
Pages: 55-58
References

 

  1. Haussühl S. Physical Properties of Crystals: an Introduction. John Wiley & Sons. 2008.
  2. Guyomar D. et al. Elastocaloric modeling of natural rubber // Applied Thermal Engineering. 2013. № 57. R. 33-38.
  3. Morozov E.V., Kuchin D.S., Koledov V.V. i dr. // ZHTF. 2016. T. 11. № 75 (v pechati).
  4. Bechtold C., Chluba C., Lima R., et al. // Applied Physics Letters. 2012. № 101. R. 091903.
  5. Ossmer H., et al. Materials Today // Proceedings 2S. 2015. R. 971-974.