Developing a virtual materials laboratory

Date

2007

Authors

Sakellariou, Arthur
Arns, Christoph
Sheppard, Adrian
Sok, Robert
Averdunk, Holger
Limaye, Ajay
Jones, Anthony
Senden, Timothy
Knackstedt, Mark

Journal Title

Journal ISSN

Volume Title

Publisher

Elsevier

Abstract

Tomographic imaging can now be routinely performed over three orders of magnitude in length scale with correspondingly high data fidelity. This capability, coupled with the development of advanced computational algorithms for image interpretation, three-dimensional visualization, and structural characterization and computation of physical properties on image data, allows for a new numerical laboratory approach to the study of real complex materials: the Virtual Materials Laboratory. Numerical measurements performed directly on images can, in many cases, be performed with similar accuracy to equivalent laboratory measurements, but also on traditionally intractable materials. These emerging capabilities and their impact on a range of scientific disciplines and industry are explored here.

Description

Keywords

Keywords: Algorithms; Computational methods; Three dimensional; Tomography; Complex materials; Data fidelity; Structural characterization; Virtual materials; Imaging systems

Citation

Source

Materials Today

Type

Journal article

Book Title

Entity type

Access Statement

License Rights

Restricted until

2037-12-31