Mathematical approach to glass
著者
書誌事項
Mathematical approach to glass
(Glass science and technology, v. 9)
Elsevier, 1988
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注記
Translated from Czech
Bibliography: p.392-400
Includes index
内容説明・目次
内容説明
Although completely self-contained, this book forms a useful supplement to Volf's "Chemical Approach to Glass" (1984) in which the account of the manifestation of the individual elements in oxide glasses was described phenomenologically. Aimed at facilitating active study of glass by means of calculations, this book is directed towards a quantification of the manifestation of elements in glass and interpolation of the chemical and physical dependence of the properties of glass. Thanks to the availability of computer technology and to increasing cooperation between glass scientists and mathematicians, the field of applied mathematics in glass has expanded and is developing into a separate discipline with its own systems and methods, internal classification, and links to other disciplines. The concept of calculations in glassmaking has therefore outgrown its original scope. It has ceased to be a mere collection of formulas and tables and is moving away from the apparently accidental peculiarities related to the nonstoichiometry of glass to an order dictated by the periodical system of elements.
目次
I. General. Models in the chemistry and technology of glass. The chemical model as a theoretical basis for calculations in the chemistry of glass. Composition. Characteristics and indices. Characteristics of mass particles. Volume characteristics. Indices. Activation energy. Acidobasicity. II. Affinity of Properties. Property as a Function of Another Property. Mutual relations between properties. III. Dependence of Properties on Composition. Additivity. Method of Winkelmann and Schott. Method of Gehlhoff and Thomas. Method of Huggins and Sun. Method of Appen. Method of Gan Fu-Si. Method of Demkina. Method of Mackenzie's school. Regressive equations. Method of statistical schedules. IV. Physical Dependence of Properties. Density. Optical properties. Permittivity. Thermal properties. Elastic properties. Strength. Hardness. Photoelasticity constant. Expansivity. Resistance to thermal shock. Surface tension. Viscosity. Electrical properties. Chemical durability. Supplement: SI units in glassmaking and their conversions. References.
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