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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

THERMAL EXPANSION UNIFORMITY OF BOROSILICATE CROWN GLASSES (TEMPAX AND E6).

Connors, Clifford James. January 1983 (has links)
No description available.
2

A phenomenological treatment of thermal expansion in crystals of the lower symmetry classes and the crystal structures of CaCoSi₂O₆ and CaNiSi₂O₆

Schlenker, John Lee January 1976 (has links)
Thermal expansion in a crystal may be completely described from a phenomenological point of view by a second rank tensor whose elements are defined by λ<sub>ij</sub>=(∂l<sub>ij</sub>/∂T)<sub>σ</sub> Or ε<sub>ij</sub>=(∂e<sub>ij</sub>/∂T)<sub>σ</sub> Where the l<sub>ij</sub> and the e<sub>ij</sub> are the elements of the linear Lagrangian and Eulerian strain tensors respectively. These λ<sub>ij</sub> and ε<sub>ij</sub> have been formulated in terms of crystal cell parameters. For example, for a monoclinic crystal the λ<sub>ij</sub> are of the form: λ₁₁(T) = 1/a₀sinβ₀ d[a(T)sinβ(T)]/dT , λ₁₃(T) = ½ (1/a₀sinβ₀ d[a(T)cosβ(T)]/dT - cotβ₀/c₀ dc(T)/dT) , λ₂₂(T) = 1/b₀ db(T)/DT , and λ₃₃(T) = 1/c₀ dc(T)/dT where a₀, b₀, c₀, and β₀ are the crystal’s cell parameters at some reference temperature T₀. By expressing the crystal cell parameters as power series expansions in the temperature, thermal expansion coefficients have been computed for indialite (hexagonal cordierite), emerald and beryl and for the clinopyroxenes: diopside, hedenbergite, jadeite, ureyite, acmite, and spodumene. The extended Grüneisen equation has been used to further examine the nature of the thermal expansion in emerald, beryl, and diopside. The crystal structures of the synthetic clinopyroxenes CaCoSi₂O₆ (cobalt diopside) and CaNiSi₂O₆ (nickel diopside) have also been determined. / Doctor of Philosophy

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