Cultural advice

The Australian National University acknowledges, celebrates and pays our respects to the Ngunnawal and Ngambri people of the Canberra region and to all First Nations Australians on whose traditional lands we meet and work, and whose cultures are among the oldest continuing cultures in human history.

Aboriginal and Torres Strait Islander peoples are advised that ANU Library collections may include images, names, voices, and other representations of deceased persons.

Material in the collection may contain terms, language or views that reflect the period in which the item was created and may be considered inappropriate today.

A modified coherent potential approximation: Grain-contact moduli and coordination-number effect

Loading...
Thumbnail Image

Date

Authors

Madadi, Mahyar
Christy, Andrew

Journal Title

Journal ISSN

Volume Title

Publisher

Elsevier

Abstract

We modified the self-consistent coherent potential approximation (CPA) for modeling properties of granular composite materials so that it takes into consideration the grain coordination number and distinctive elastic moduli for grain-contact zones. The original CPA was reasonably accurate for low-porosity consolidated sandstones but used only inclusion (pore or grain) shape and did not take into account morphological parameters such as coordination number and contact area or contact moduli. In our modified model, the grain inclusion was represented as a "grain with contact area"; therefore, scattering of elastic waves by contacts was incorporated. The modified CPA has been used to calculate data for 3D digital models of sintered quartz bead samples and Fontainebleau sandstones. Reduction of local elastic moduli for contact zones of specified area and thickness reduced effective overall moduli of the bulk sample. The modified theory predicted this weakening accurately, as compared to finite-element simulations.

Description

Citation

Source

Advances in Geophysics

Book Title

Entity type

Access Statement

License Rights

Restricted until

2037-12-31