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2013 | OriginalPaper | Chapter

34. Responding to Temperature Changes

Authors : C. Barry Carter, M. Grant Norton

Published in: Ceramic Materials

Publisher: Springer New York

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Abstract

Table 34.1 lists the important parameters we meet in this chapter and their units. The SI unit of temperature is kelvin (K), but as you have realized by now °C is often used in presenting data in materials science. As we mentioned in Chapter 1, the numerical value of a temperature difference or temperature interval expressed in °C is equal to the numerical value of the same temperature difference or interval when expressed in K. This point is worth remembering when you compare coefficients of thermal expansion or thermal conductivities for different materials.

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Appendix
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Literature
Berman R (1992) Ch. 7 Discusses the thermal conductivity of diamond and the effect different impurities have on this property. In: Field JE (ed) The properties of diamond. Academic, London
Kingery WD, Bowen HK, Uhlmann DR (1976) Introduction to ceramics, 2nd edn. Wiley, New York, pp 583–645, A very detailed chapter on thermal properties. The discussion of photon conductivity and the thermal properties of glasses are covered in more depth than we do
Lynch CT (ed) (1975) CRC handbook of materials science, vol III, Nonmetallic materials and applications. CRC Press, Cleveland, Relevant data for thin-film deposition are given on pp. 128–145. A useful resource for vapor pressures of various ceramics
Rosenberg HM (1988) The solid state, 3rd edn. Oxford University Press, Oxford, pp 96–101, Has a clear discussion of phonon scattering mechanisms
Debye P (1912) The theory of specific warmth. Ann Phys 39:789, An English translation of this classic paper appears in: The Collected Papers of P.J.W. Debye, (1954) Interscience, New York p. 650CrossRef
Debye P (1914) Vortäge über die Kinetische Theorie. B.G. Teubner, Leipzig, The original source. In German
Hultgren R, Orr RL, Anderson PD, Kelley KK (1963) Selected values of thermodynamic properties of metals and alloys. Wiley, New York, Useful lists of thermodynamics properties
Kubaschewski O, Evans ELL, Alcock CB (1967) Metallurgical thermochemistry, 4th edn. Pergamon Press, Oxford, More thermodynamics properties
Nabarro FRN (1987) Theory of crystal dislocations. Dover, New York, pp 746–751, The Dover edition republishing the work first published in 1967
Peierls R (1929) The kinetic theory of thermal conduction in crystals. Ann Phys 3:1055CrossRef
Metadata
Title
Responding to Temperature Changes
Authors
C. Barry Carter
M. Grant Norton
Copyright Year
2013
Publisher
Springer New York
Book
Ceramic Materials

Print ISBN: 978-1-4614-3522-8

Electronic ISBN: 978-1-4614-3523-5

Copyright Year: 2013

DOI
https://doi.org/10.1007/978-1-4614-3523-5_34

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