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Multi-scale Simulation of Composite Materials [electronic resource] : Results from the Project MuSiKo / edited by Stefan Diebels, Sergej Rjasanow.

Contributor(s): Diebels, Stefan [editor.] | Rjasanow, Sergej [editor.] | SpringerLink (Online service).
Material type: materialTypeLabelBookSeries: Mathematical Engineering: Publisher: Berlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer, 2019Edition: 1st ed. 2019.Description: VII, 178 p. 119 illus., 101 illus. in color. online resource.Content type: text Media type: computer Carrier type: online resourceISBN: 9783662579572.Subject(s): Mechanics, Applied | Solids | Mathematics—Data processing | Materials—Analysis | Mathematical physics | Solid Mechanics | Computational Science and Engineering | Characterization and Analytical Technique | Theoretical, Mathematical and Computational PhysicsAdditional physical formats: Printed edition:: No title; Printed edition:: No titleDDC classification: 620.105 Online resources: Click here to access online
Contents:
Introduction -- Multi-scale Methods in Simulation - a Path to a Better Understanding of the Behaviour of Structures -- Microstructure Simulation for Short Fiber Reinforced Materials -- Parallel Inelastic Heterogeneous Multi-scale Simulations -- Fast Boundary Element Methods for Composite Materials -- Experimental Studies.
In: Springer Nature eBookSummary: Bringing together mathematical modelling, materials mechanics, numerical methods and experimental engineering, this book provides a unique overview of multi-scale modelling approaches, multi-scale simulations and experimental investigations of short fibre reinforced thermoplastics. The first chapters focus on two principal subjects: the mathematical and mechanical models governing composite properties and damage description. The subsequent chapters present numerical algorithms based on the Finite Element Method and the Boundary Element Method, both of which make explicit use of the composite’s microstructure. Further, the results of the numerical simulations are shown and compared to experimental results. Lastly, the book investigates deformation and failure of composite materials experimentally, explaining the applied methods and presenting the results for different volume fractions of fibres. This book is a valuable resource for applied mathematics, theoretical and experimental mechanical engineers as well as engineers in industry dealing with modelling and simulation of short fibre reinforced composites.
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Introduction -- Multi-scale Methods in Simulation - a Path to a Better Understanding of the Behaviour of Structures -- Microstructure Simulation for Short Fiber Reinforced Materials -- Parallel Inelastic Heterogeneous Multi-scale Simulations -- Fast Boundary Element Methods for Composite Materials -- Experimental Studies.

Bringing together mathematical modelling, materials mechanics, numerical methods and experimental engineering, this book provides a unique overview of multi-scale modelling approaches, multi-scale simulations and experimental investigations of short fibre reinforced thermoplastics. The first chapters focus on two principal subjects: the mathematical and mechanical models governing composite properties and damage description. The subsequent chapters present numerical algorithms based on the Finite Element Method and the Boundary Element Method, both of which make explicit use of the composite’s microstructure. Further, the results of the numerical simulations are shown and compared to experimental results. Lastly, the book investigates deformation and failure of composite materials experimentally, explaining the applied methods and presenting the results for different volume fractions of fibres. This book is a valuable resource for applied mathematics, theoretical and experimental mechanical engineers as well as engineers in industry dealing with modelling and simulation of short fibre reinforced composites.

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