IUTAM Symposium on Mechanical Properties of Cellular Materials [electronic resource] : Proceedings of the IUTAM Symposium on Mechanical Properties of Cellular Materials, held September 17–20, 2007, LMT-Cachan, Cachan, France / edited by Han Zhao, N. A. Fleck.

By: Zhao, Han [editor.]Contributor(s): Fleck, N. A [editor.] | SpringerLink (Online service)Material type: TextTextLanguage: English Series: IUTAM Bookseries: 12Publisher: Dordrecht : Springer Netherlands, 2009Description: online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9781402094040Subject(s): Engineering | Mechanics, applied | Materials | Surfaces (Physics) | Engineering | Theoretical and Applied Mechanics | Materials Science, general | Continuum Mechanics and Mechanics of Materials | Structural Materials | Characterization and Evaluation of MaterialsAdditional physical formats: Printed edition:: No titleDDC classification: 620.1 LOC classification: TA349-359Online resources: Click here to access online
Contents:
Uniaxial Deformation of Microcellular Metals: Model Systems and Simplified Analysis -- Mechanical Properties and Design of Lattice Composites and Structures -- Nano-Cellular Materials with Unusual Mechanical and Physical Properties -- The High Strain Rate Response of Adipose Tissue -- X Ray Tomography Study of Cellular Materials: Experiments and Modelling -- Anisotropic Mechanical Properties of Lotus-Type Porous Metals -- Mechanical Behavior of Nickel Base Foams for Diesel Particle Filter Applications -- Anisotropy in Buckling Behavior of Kelvin Open-Cell Foams Subject to Uniaxial Compression -- Elastic Buckling of 2-D Random Honeycombs: Does a Representative Volume Element Exists? -- Mechanical Properties of Semi-expanded Hollow Sphere Structures -- Indentation Tests on Al Matrix Syntactic Foams -- Fracture of Metal Foams: A Discrete Modelling Approach -- Fracture of Foamed Cementitious Materials: A Combined Experimental and Numerical Study -- Modeling and Simulation of Highly Porous Open Cell Structures: Elasto-Plasticity and Localization Versus Disorder and Defects -- Mechanical Properties of Crimped Mineral Wools: Identification from Digital Image Correlation -- Influences of Inertia and Material Property on the Dynamic Behavior of Cellular Metals -- Shock Enhancement due to Shock Front Propagation in Cellular Materials -- Close-Range Blast Loading of Aluminium Foam Panels: A Numerical Study -- Description of the Behaviour of Cellular Composite with Weak Filling Material -- Studies on the Dynamic Behavior of Aluminum Alloy Foams -- Computational Modelling of Closed- and Open-Cell Cellular Structures with Fillers -- Study of Cellular Materials Sandwich Under Dynamic Loading for Bird Strike Application.
In: Springer eBooksSummary: Solid cellular materials (foams, lattice materials, honeycombs, etc.) are attractive and have resulted in the creation of an active subject for structural, mechanical and material scientists in recent years. Indeed, constant progress in the manufacturing techniques are improving their properties and reducing their costs; and mass productions and industrial applications are beginning. An important mechanical problem is how to characterize and model the mechanical behaviour of these materials, which is necessary for industrial design and numerical predictions involved in various applications such as light weight structures, energy absorbers. This volume contains twenty-two contributions written by distinguished invited speakers from all part of the world to the iutam symposium on mechanical properties of cellular materials. It provides a survey on recent advances in the characterisation and modeling of the mechanical properties of solid cellular materials under static and dynamic loading as well as their applications in lightweight structures analysis and design. This volume will be of interest to structural, mechanical and material scientists and engineers working on different aspects of this new class of materials (for example in microstructure observation, micromechanical and multiscale modeling, phenomenological models, structural impact behaviour and numerical validation).
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Uniaxial Deformation of Microcellular Metals: Model Systems and Simplified Analysis -- Mechanical Properties and Design of Lattice Composites and Structures -- Nano-Cellular Materials with Unusual Mechanical and Physical Properties -- The High Strain Rate Response of Adipose Tissue -- X Ray Tomography Study of Cellular Materials: Experiments and Modelling -- Anisotropic Mechanical Properties of Lotus-Type Porous Metals -- Mechanical Behavior of Nickel Base Foams for Diesel Particle Filter Applications -- Anisotropy in Buckling Behavior of Kelvin Open-Cell Foams Subject to Uniaxial Compression -- Elastic Buckling of 2-D Random Honeycombs: Does a Representative Volume Element Exists? -- Mechanical Properties of Semi-expanded Hollow Sphere Structures -- Indentation Tests on Al Matrix Syntactic Foams -- Fracture of Metal Foams: A Discrete Modelling Approach -- Fracture of Foamed Cementitious Materials: A Combined Experimental and Numerical Study -- Modeling and Simulation of Highly Porous Open Cell Structures: Elasto-Plasticity and Localization Versus Disorder and Defects -- Mechanical Properties of Crimped Mineral Wools: Identification from Digital Image Correlation -- Influences of Inertia and Material Property on the Dynamic Behavior of Cellular Metals -- Shock Enhancement due to Shock Front Propagation in Cellular Materials -- Close-Range Blast Loading of Aluminium Foam Panels: A Numerical Study -- Description of the Behaviour of Cellular Composite with Weak Filling Material -- Studies on the Dynamic Behavior of Aluminum Alloy Foams -- Computational Modelling of Closed- and Open-Cell Cellular Structures with Fillers -- Study of Cellular Materials Sandwich Under Dynamic Loading for Bird Strike Application.

Solid cellular materials (foams, lattice materials, honeycombs, etc.) are attractive and have resulted in the creation of an active subject for structural, mechanical and material scientists in recent years. Indeed, constant progress in the manufacturing techniques are improving their properties and reducing their costs; and mass productions and industrial applications are beginning. An important mechanical problem is how to characterize and model the mechanical behaviour of these materials, which is necessary for industrial design and numerical predictions involved in various applications such as light weight structures, energy absorbers. This volume contains twenty-two contributions written by distinguished invited speakers from all part of the world to the iutam symposium on mechanical properties of cellular materials. It provides a survey on recent advances in the characterisation and modeling of the mechanical properties of solid cellular materials under static and dynamic loading as well as their applications in lightweight structures analysis and design. This volume will be of interest to structural, mechanical and material scientists and engineers working on different aspects of this new class of materials (for example in microstructure observation, micromechanical and multiscale modeling, phenomenological models, structural impact behaviour and numerical validation).

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