Abstract
Materials may demonstrate electromagnetism and thermomechanics coupling. Although we benefit from this coupling in our modern lives, comprehending this coupling is challenging. We intuitively understand that temperature increase causes an expansion in polymers and alloys. Typical example is a plastic water bottle left in the sun, the expansion is visible by naked eyes. Yet it is more abstract to consider that an electric field may create a deformation or even a temperature change. Electromagnetic fields are more abstract since our senses fail to be sensitive to these physical quantities. There are indeed materials with so-called piezoelectric and pyroelectric properties and we use them for sensors and actuators. More confusingly, there is a thermoelectric effect relating electric current and heat flux. In order to set the ideas correctly, we explain these phenomena and introduce to the abstract world of electromagnetism and thermomechanics coupling. Furthermore, we provide an inside look to realize how different types of thermal and electric coupling phenomena work and how to model such materials adequately.
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References
B.E. Abali Thermodynamically Compatible Modeling, Determination of Material Parameters, and Numerical Analysis of Nonlinear Rheological Materials. Doctoral thesis, Technische Universität Berlin, epubli, 2014
B.E. Abali, Computational Reality, Advanced Structured Materials, vol 55 (Springer Nature, Singapore, 2017)
B. Coleman, W. Noll, The thermodynamics of elastic materials with heat conduction and viscosity. Arch. Ration. Mech. Anal. 13(1), 167–178 (1963). https://doi.org/10.1007/BF01262690
S.R. de Groot, P. Mazur, Non-equilibrium Thermodynamics (Dover Publications, New York, 1984)
C. Eckart, The thermodynamics of irreversible processes. I. The Simple Fluid. Phys. Rev. 58, 267–269 (1940a). https://doi.org/10.1103/PhysRev.58.267
C. Eckart, The thermodynamics of irreversible processes. II. Fluid Mixtures. Phys. Rev. 58(3), 269 (1940b)
C. Eckart, The Thermodynamics of irreversible processes. III. Relativistic theory of the simple fluid. Phys. Rev. 58(10), 919 (1940c)
J. Erhart, Experiments to demonstrate piezoelectric and pyroelectric effects. Phys. Educ. 48(4), 438 (2013)
D. Jou, J. Casas-Vazquez, G. Lebon, Extended irreversible thermodynamics revisited (1988-98). Rep. Prog. Phys. 62(7), 1035 (1999)
A.H. Meitzler, H.F. Tiersten, A.W. Warner, D. Berlincourt, G.A. Couqin, F.S. Welsh III, IEEE Standard on Piezoelectricity (IEEE Society, 1988)
I. Müller, Thermodynamik (Bertelsmann-Universitätsverlag, 1973)
I. Müller, W.H. Müller, Fundamentals of Thermodynamics and Applications: With Historical Annotations and Many Citations from Avogadro to Zermelo (Springer Science & Business Media, Berlin, 2009)
I. Müller, T. Ruggeri, Extended Thermodynamics (Springer, 1993)
D. Nelson, M. Lax, Theory of the photoelastic interaction. Phys. Rev. B 3(8), 2778 (1971)
J.F. Nye, Physical Properties of Crystals: Their Representation by Tensors and Matrices (Clarendon Press, Oxford, 1967)
J.C.A. Peltier, Nouvelles expériences sur la caloricité des courans électriques. Ann. Chim. Phys. 56, 371–386 (1834)
P.M. Roget, Treatises on Electricity, Galvanism, Magnetism, and Electro-Magnetism (Baldwin and Cradock, London, 1832)
T.J. Seebeck, Magnetische polarisation der metalle und erze durch temperatur-differenz, vol 70 (W. Engelmann, Leipzig, 1895)
W. Thomson, On a mechanical theory of thermo-electric currents. Proc. R. Soc. Edinb 3, 91–98 (1857)
C. Truesdell, R.A. Toupin, Encyclopedia of Physics, Principles of Classical Mechanics and Field Theory, vol III/1 (Springer, Berlin/Göttingen/Heidelberg, 1960), pp. 226–790
W. Voigt, Lehrbuch der kristallphysik (Teubner, Leipzig, 1928)
G. Heckmann, Die Gittertheorie der festen Körper. Ergebnisse der exakten Naturwissenschaften 100–153 (1925)
W.G. Cady, Piezoelectricity: An Introduction to the Theory and Applications of Electomechanical Phenomena in Crystals (Dover, New York, 1964)
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Abali, B.E. (2022). An Introduction to Piezoelectric and Thermoelectric Materials. In: Gupta, R. (eds) Handbook of Energy Materials. Springer, Singapore. https://doi.org/10.1007/978-981-16-4480-1_85-1
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DOI: https://doi.org/10.1007/978-981-16-4480-1_85-1
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