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Concrete. --- Concrete --- Transport properties. --- Beton --- Building materials
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Transport Properties of Concrete covers how to measure the ability of ions and fluids to move through concrete material, and how to use the results to model performance. These transport properties largely determine the durability of concrete and of steel embedded within it, as well as the effectiveness of structures such as landfill containment barriers. The book begins by explaining in detail what transport properties are and how to write computer models for transport processes. Early chapters present and explain computer models written in basic code. Coverage then proceeds
Concrete -- Quality control. --- Concrete -- Transport properties. --- Concrete. --- Concrete --- Chemical & Materials Engineering --- Engineering & Applied Sciences --- Materials Science --- Transport properties --- Transport properties. --- Beton --- Building materials
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Presents a comprehensive treatment of discrete phase-space quantum mechanics and the lattice Weyl-Wigner formulation of energy band dynamics, by the originator of these theoretical techniques. This book includes the author's quantum superfield theoretical technique for nonequilibrium quantum physics.
Phase space (Statistical physics) --- Mesoscopic phenomena (Physics) --- Transport theory. --- Nanostructured materials --- Quantum theory. --- Nanoscience. --- Transport properties.
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Porous materials --- Hydrophobic surfaces. --- Percolation (Statistical physics) --- Lattice theory --- Statistical physics --- Lipophilic surfaces --- Surfaces, Hydrophobic --- Surfaces, Lipophilic --- Surface chemistry --- Porous media --- Materials --- Porosity --- Transport properties.
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This contribution presents an analytical and a numerical model for predicting the effective thermal conductivity of porous electrode coatings as a function of microstructure parameters. Both models account for the morphological parameters and the thermal bulk materials of the constitutive cell components. The results of both models have been successfully verified against each other and validated with literature data as well as own experimental measurements.
Mechanical engineering & materials --- thermal conductivity --- thermal transport properties --- porous electrodes --- lithium-ion cell --- lithium-ion battery --- Wärmeleitfähigkeit --- thermische Transporteigenschaften --- poröse Elektroden --- Lithium-Ionen Zelle --- Lithium-Ionen Batterie
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Tensile strength, fatigue strength and ductility are important properties of nanostructured metallic materials, which make them suitable for use in applications where strength or strength-to-weight ratios are important. Nanostructured metals and alloys reviews the latest technologies used for production of these materials, as well as recent advances in research into their structure and mechanical properties.One of the most important issues facing nanostructured metals and alloys is how to produce them. Part one describes the different methods used to process bulk nanostructured metals
Machining. --- Nanocomposites (Materials). --- Nanostructured materials -- Transport properties. --- Nanostructured materials. --- Metals. --- Metallic elements --- Chemical elements --- Ores --- Metallurgy --- Nanomaterials --- Nanometer materials --- Nanophase materials --- Nanostructure controlled materials --- Nanostructure materials --- Ultra-fine microstructure materials --- Microstructure --- Nanotechnology
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This volume contains recent developments in the field of thermoelectric with a focus on materials research, including inorganic, polymer and composite materials as well as different approaches to materials processing. These studies are representative of some of the continuing technological development in the field of thermoelectrics.
materials processing for thermoelectrics --- structure-property and processing-property relationships --- transport properties --- mechanical properties --- crystal growth and synthetic routes --- Materials --- Crystal growth. --- Crystals --- Research. --- Thermal properties. --- Electric properties. --- Crystallization --- Grain boundaries --- Twinning (Crystallography) --- Materials research --- Growth
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Covering more than 7,800 organic and inorganic chemicals and hydrocarbons, Transport Properties of Chemical and Hydrocarbons, Second Edition is an essential volume for any chemist or chemical engineer. Spanning gases, liquids, and solids, the book covers all critical properties (including viscosity, thermal conductivity, and diffusion coefficient). From C1 to C100 organics and Ac to Zr inorganics, the data in this handbook is a perfect quick reference for field, lab, or classroom use. By collecting a massive - but relevant - amount of information in one source, the handbook en
Organic compounds --- Inorganic compounds --- Compounds, Inorganic --- Inorganic chemicals --- Chemicals --- Chemistry, Inorganic --- Compounds, Organic --- Organic chemicals --- Carbon compounds --- Transport properties --- Composés organiques --- Composés inorganiques --- Handbooks, manuals, etc. --- Propriétés de transport --- Guides, manuels, etc --- Hydrocarbons.
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The present monograph presents, for the first time, a unified and comprehensive introduction to some of the basic transport properties of porous media, such as electrical and hydraulic conductivity, air permeability and diffusion. The treatment is based on critical path analysis and the scaling of transport properties which are individually described as functions of saturation. At the same time, the book supplies a tutorial on percolation theory for hydrologists, providing them with the tools for solving actual problems. In turn, a separate chapter serves to introduce physicists to some of the language and complications of groundwater hydrology necessary for successful modelling.
Porous materials --- Percolation (Statistical physics) --- Critical path analysis. --- Matériaux poreux --- Percolation (Physique statistique) --- Méthode du chemin critique --- Transport properties. --- Propriétés de transport --- Hydraulic engineering. --- Physics. --- Statistical physics. --- Thermodynamics. --- Engineering. --- Geosciences. --- Hydrogeology. --- Statistical Physics. --- Complexity. --- Mechanics, Fluids, Thermodynamics. --- Math. Applications in Geosciences. --- Critical path analysis --- Atomic Physics --- Physical Geography --- Physics --- Geography --- Physical Sciences & Mathematics --- Earth & Environmental Sciences --- Transport properties --- CPM (Network analysis) --- Critical path method --- Path analysis, Critical --- Porous media --- Construction --- Natural philosophy --- Philosophy, Natural --- Engineering, Hydraulic --- Statistical methods --- Earth sciences. --- Hydrology. --- Continuum physics. --- Dynamical systems. --- Earth Sciences. --- Hydrology/Water Resources. --- Statistical Physics, Dynamical Systems and Complexity. --- Classical Continuum Physics. --- Earth Sciences, general. --- Geography. --- Complex Systems. --- Classical and Continuum Physics. --- Statistical Physics and Dynamical Systems. --- Mathematical statistics --- Cosmography --- Earth sciences --- World history --- Engineering --- Fluid mechanics --- Hydraulics --- Shore protection --- Geosciences --- Environmental sciences --- Physical sciences --- Classical field theory --- Continuum physics --- Continuum mechanics --- Dynamical systems --- Kinetics --- Mathematics --- Mechanics, Analytic --- Force and energy --- Mechanics --- Statics --- Aquatic sciences --- Hydrography --- Water --- Geohydrology --- Geology --- Hydrology --- Groundwater
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This monograph presents, for the first time, a unified and comprehensive introduction to some of the basic transport properties of porous media, such as electrical and hydraulic conductivity, air permeability and diffusion. The treatment is based on critical path analysis and the scaling of transport properties which are individually described as functions of saturation. At the same time, the book supplies a tutorial on percolation theory for hydrologists, providing them with the tools for solving actual problems. In turn, a separate chapter serves to introduce physicists to some of the language and complications of groundwater hydrology necessary for successful modelling. End of chapter problems often indicate open questions, on which young researchers entering the field can readily start work on. This significantly revised and much expanded edition was made necessary by both the selling out of the first edition and the rapid progress in the field. At the same time the tutorial aspects of the first few chapters have been considerably improved and the number of models, experiments and range of medium properties considered have been increased. Topics discussed for the first time in detail in this edition are advanced topological aspects of percolation theory that serve as a basis for examining dispersion aspects in porous media. "The book is suitable for advanced graduate courses, with selected problems and questions appearing at the end of each chapter. [...] I think the book is an important work that will guide soil scientists, hydrologists, and physicists to gain a better qualitative and quantitative understanding of multitransport properties of soils." (Marcel G. Schaap, Soil Science Society of America Journal, May-June, 2006).
Porous materials --- Percolation (Statistical physics) --- Critical path analysis --- Atomic Physics --- Physics --- Physical Sciences & Mathematics --- Transport properties --- Critical path analysis. --- Transport properties. --- CPM (Network analysis) --- Critical path method --- Path analysis, Critical --- Porous media --- Physics. --- Hydrology. --- Earth sciences. --- Hydrogeology. --- Continuum physics. --- Statistical physics. --- Dynamical systems. --- Physics, general. --- Hydrology/Water Resources. --- Statistical Physics, Dynamical Systems and Complexity. --- Classical Continuum Physics. --- Earth Sciences, general. --- Network analysis (Planning) --- Lattice theory --- Statistical physics --- Materials --- Porosity --- Hydraulic engineering. --- Geography. --- Complex Systems. --- Classical and Continuum Physics. --- Cosmography --- Earth sciences --- World history --- Engineering, Hydraulic --- Engineering --- Fluid mechanics --- Hydraulics --- Shore protection --- Natural philosophy --- Philosophy, Natural --- Physical sciences --- Dynamics --- Geosciences --- Environmental sciences --- Classical field theory --- Continuum physics --- Continuum mechanics --- Dynamical systems --- Kinetics --- Mathematics --- Mechanics, Analytic --- Force and energy --- Mechanics --- Statics --- Mathematical statistics --- Aquatic sciences --- Hydrography --- Water --- Geohydrology --- Geology --- Hydrology --- Groundwater --- Statistical methods
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