Sampson | Modelling Stochastic Fibrous Materials with Mathematica® | Buch | 978-1-84996-811-9 | sack.de

Buch, Englisch, 277 Seiten, Previously published in hardcover, Format (B × H): 155 mm x 235 mm, Gewicht: 446 g

Reihe: Engineering Materials and Processes

Sampson

Modelling Stochastic Fibrous Materials with Mathematica®


1. Auflage. Softcover version of original hardcover Auflage 2009
ISBN: 978-1-84996-811-9
Verlag: Springer

Buch, Englisch, 277 Seiten, Previously published in hardcover, Format (B × H): 155 mm x 235 mm, Gewicht: 446 g

Reihe: Engineering Materials and Processes

ISBN: 978-1-84996-811-9
Verlag: Springer

Developments in the use of electrospun fibrous materials, for application in tissue engineering and in carbon fibrous materials in fuel cells, has generated new interest in the dependence of the properties and structure of these materials on those of their constituent fibres. “Modelling Stochastic Fibrous Materials with Mathematica” provides an overview of the structure of stochastic fibrous materials, and the use of Mathematica® to develop models describing their structure and performance. The book introduces the techniques of statistical geometry and probabilistic modelling for non-mathematicians, and assumes no previous experience of Mathematica®. Using accessible notation and by providing examples of Mathematica® code, expressions are derived for the structural characteristics of stochastic fibrous materials providing insights into the ways these depend upon each other and the extent to which they can be modified in the laboratory or in a manufacturing environment.
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Zielgruppe

Research

Autoren/Hrsg.

Sampson, William Wyatt

Fachgebiete

Weitere Infos & Material

Statistical Tools and Terminology.- Planar Poisson Point and Line Processes.- Poisson Fibre Processes I: Fibre Phase.- Poisson Fibre Processes II: Void Phase.- Stochastic Departures from Randomness.- Three-dimensional Networks.

Bill Sampson is a Senior Lecturer in the School of Materials at the University of Manchester, with more than 15 years experience modeling the structure and performance of stochastic fibrous materials. His interest in these materials developed at UMIST and the University of Toronto where he first used the computer mathematics software Mathematica to develop theories applying statistical geometry to the study of the pore size distribution in paper. Subsequent work has yielded theories describing the distributions of porosity and pore size in two- and three-dimensional networks, and the extent and configuration of fiber contacts in general classes of stochastic fibrous materials. These models have been applied to the study of the structures of non-woven textiles, electrospun polymer networks, and fibrous filters, and the influence of structure on their mechanical, optical and transport behaviors.

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