Properties for Design of Composite Structures. Neil McCartney

Чтение книги онлайн.

Читать онлайн книгу Properties for Design of Composite Structures - Neil McCartney страница 47

Properties for Design of Composite Structures - Neil McCartney

Скачать книгу

of the composite

      The inequalities (3.12), (3.30) and (3.48), valid for all volume fractions, lead to rigorous bounds valid for any phase geometries that are statistically isotropic. They have the following common structure that is strongly related to the structure defined by (3.51) and (3.52) for effective properties determined using Maxwell’s methodology

      where StartLayout 1st Row x 1 Superscript min Baseline equals 2 kappa Subscript min Baseline comma x 2 Superscript min Baseline equals four-thirds mu Subscript min Baseline comma x 3 Superscript min Baseline equals mu Subscript min Superscript asterisk Baseline comma 2nd Row x 1 Superscript max Baseline equals 2 kappa Subscript max Baseline comma x 2 Superscript max Baseline equals four-thirds mu Subscript max Baseline comma x 3 Superscript max Baseline equals mu Subscript max Superscript asterisk Baseline period EndLayout right-brace(3.54)

      3.5.2 Two-phase Composites

      When N = 1, it follows from (3.2) and (3.11) that the result first derived by Maxwell [3] for the analogous case of electrical conductivity is obtained, which may be expressed in the form of a mixtures estimate plus a correction term so that

      It follows from (3.28), (3.29) and (3.47) derived using Maxwell’s methodology, that the effective bulk modulus, thermal expansion coefficient and shear modulus may be expressed as a mixtures estimate plus a correction term, so that