This book provides a profound understanding, which physical processes and mechanisms cause the heat transfer in composite and cellular materials. It shows models for all important classes of composite materials and introduces into the latest advances. In three parts, the book covers Composite Materials (Part A), Porous and Cellular Materials (Part B) and the appearance of a conjoint solid phase and fluid aggregate (Part C).
This book provides a profound understanding, which physical processes and mechanisms cause the heat transfer in composite and cellular materials. It shows models for all important classes of composite materials and introduces into the latest advances.
In three parts, the book covers Composite Materials (Part A), Porous and Cellular Materials (Part B) and the appearance of a conjoint solid phase and fluid aggregate (Part C).
Andreas Öchsner, born 1970, is Full Professor in the Department Solid Mechanics and Design at the University of Technology Malaysia (UTM), Malaysia and Head of the Advanced Materials and Structure Lab. Having obtained a Diploma Degree (Dipl.-Ing.) in Aeronautical Engineering at the University of Stuttgart (1997), Germany, he spent the time from 1997-2003 at the University of Erlangen-Nuremberg as a research and teaching assistant to obtain his Doctor of Engineering Sciences (Dr.-Ing.). From 2003-06, he worked as Assistant Professor in the Department of Mechanical Engineering and Head of the Cellular Metals Group affiliated with the University of Aveiro, Portugal. His research interests are related to experimental and computational mechanics, cellular metals and thin structures and interphases. His research activities were recognised in 2010 by the award of a higher doctorate degree (D.Sc.) by the University of Newcastle, Australia.
Inhaltsangabe
Part A: Composite Materials.- Continuum Modeling of Diffusive Transport in Inhomogeneous Solids.- Thermal Residual Stresses on Aluminium Matrix Composites.- Heat Conduction in Two-Phase Composite Materials with Three-Dimensional Microstructures and Interfacial Thermal Resistance.- Heat Transfer through Thin Imperfect Interfaces.- Part B: Porous and Cellular Materials.- Heat Transfer in Metal Foams.- Heat Transfer in Graphitic Foams.- Heat Transfer of Polypropylene Foams.- Polymer Composites filled with Inorganic Hollow Micro-Spheres.- Radiative Properties of Two Phase Materials.- Predictions of Effective Thermal Conductivity of Complex Materials.- Lattice Monte Carlo Analysis of Thermal Diffusion in Multi-Phase Materials.- Optimization of a Unit Periodic Cell in Lattice Block Materials Aiming at Thermo-mechanical Applications.- Part C: Consideration of a Fluid.- Thermal Instabilities in a Fluid Saturated Porous Medium.- The Modelling of Local Thermal Non-equilibrium Processes in Porous Media.- High Porosity Cellular Material: Morphology, Boiling & Conjugate Heat Transfer.- A Bio-Inspired Capillary Convection with Encapsulated Phase-Change Particles.
Part A: Composite Materials.- Continuum Modeling of Diffusive Transport in Inhomogeneous Solids.- Thermal Residual Stresses on Aluminium Matrix Composites.- Heat Conduction in Two-Phase Composite Materials with Three-Dimensional Microstructures and Interfacial Thermal Resistance.- Heat Transfer through Thin Imperfect Interfaces.- Part B: Porous and Cellular Materials.- Heat Transfer in Metal Foams.- Heat Transfer in Graphitic Foams.- Heat Transfer of Polypropylene Foams.- Polymer Composites filled with Inorganic Hollow Micro-Spheres.- Radiative Properties of Two Phase Materials.- Predictions of Effective Thermal Conductivity of Complex Materials.- Lattice Monte Carlo Analysis of Thermal Diffusion in Multi-Phase Materials.- Optimization of a Unit Periodic Cell in Lattice Block Materials Aiming at Thermo-mechanical Applications.- Part C: Consideration of a Fluid.- Thermal Instabilities in a Fluid Saturated Porous Medium.- The Modelling of Local Thermal Non-equilibrium Processes in Porous Media.- High Porosity Cellular Material: Morphology, Boiling & Conjugate Heat Transfer.- A Bio-Inspired Capillary Convection with Encapsulated Phase-Change Particles.
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