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Nanocomposites (Materials) --- Composite materials. --- Shielding. --- Composites (Materials) --- Multiphase materials --- Reinforced solids --- Solids, Reinforced --- Two phase materials --- Materials --- Nanocomposite materials --- Nanostructured composite materials --- Nanostructured composites --- Composite materials --- Nanostructured materials
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Nanocomposites (Materials) --- Polyethylene. --- Crinothene --- Polythene --- Ethylene --- Thermoplastics --- Nanocomposite materials --- Nanostructured composite materials --- Nanostructured composites --- Composite materials --- Nanostructured materials
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This volume covers various aspects of cross-linked polyethylene (XLPE). The contents include manufacture, morphology, structure, properties, applications, early stage development, cross-linking techniques, recycling process, physical and chemical properties as well as the scope and future aspects of XLPE. It focuses on the life cycle analysis of XLPE and their industrial applications and commercial importance. This book will be of use to academic and industry researchers, as well as graduate students working in the fields of polymer science and engineering, materials science, and chemical engineering. .
Polymers . --- Materials science. --- Engineering—Materials. --- Polymer Sciences. --- Characterization and Evaluation of Materials. --- Materials Engineering. --- Material science --- Physical sciences --- Polymere --- Polymeride --- Polymers and polymerization --- Macromolecules --- Polyethylene. --- Crinothene --- Polythene --- Ethylene --- Thermoplastics
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This book describes the application of mathematical and fundamental theory as stated in the relevant standards, namely EYM and NDS. Timber is one of the important building materials in the field of engineering, other than concrete and steel. However, there is still a lot of unexplored knowledge about timber, including how timber connections are made. One of the main types of timber connection is mortise and tenon. Mortise and tenon are widely seen as one of the most important traditional timber structural joint. In order to understand the load-carrying capacity and performance of the structural mortise and tenon joint, the existing theoretical background of timber joint design is made as a reference. Current equations applicable in estimating the load-carrying capacity of timber joint uses the European Yield Model (EYM). Therefore, the main aim of this book is to share the basic design knowledge, inclusive of safety factor limitations (as engineering main factor) in structural design.
Light construction. --- Steel construction. --- Lightweight construction. --- Building materials. --- Timber. --- Light-weight Construction, Steel and Timber Construction. --- Wood, fabric, and textiles. --- Building Materials. --- Structural Materials. --- Forest production --- Building materials --- Forest products --- Lumber trade --- Forests and forestry --- Lumber --- Tree farms --- Trees --- Wood --- Architectural materials --- Architecture --- Building --- Building supplies --- Buildings --- Construction materials --- Structural materials --- Materials --- Construction, Lightweight --- Light construction --- Light weight construction --- Minimum weight construction --- Architectural engineering --- Engineering, Architectural --- Iron and steel building --- Iron construction --- Steel and iron building --- Steel construction --- Girders --- Graphic statics --- Iron --- Steel --- Iron, Structural --- Steel, Structural --- Timber joints. --- Building, Wooden --- Wood joints --- Joints (Engineering) --- Joints
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Nanocomposites (Materials) --- Composite materials. --- Shielding.
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This book describes the application of mathematical and fundamental theory as stated in the relevant standards, namely EYM and NDS. Timber is one of the important building materials in the field of engineering, other than concrete and steel. However, there is still a lot of unexplored knowledge about timber, including how timber connections are made. One of the main types of timber connection is mortise and tenon. Mortise and tenon are widely seen as one of the most important traditional timber structural joint. In order to understand the load-carrying capacity and performance of the structural mortise and tenon joint, the existing theoretical background of timber joint design is made as a reference. Current equations applicable in estimating the load-carrying capacity of timber joint uses the European Yield Model (EYM). Therefore, the main aim of this book is to share the basic design knowledge, inclusive of safety factor limitations (as engineering main factor) in structural design.
Materials sciences --- Building materials. Building technology --- staalconstructies --- materialen (technologie) --- bouwmaterialen
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Macromolecules --- General biophysics --- Materials sciences --- Electrical engineering --- Applied physical engineering --- biologische materialen --- materiaalkennis --- nanotechniek --- polymeren
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Macromolecules --- Materials sciences --- Applied physical engineering --- materiaalkennis --- polymeren
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This volume serves as a cutting edge reference on XLPE based blends, nanocomposites, and their applications. The book provides an introduction to XLPE nanocomposites and discusses the incorporation of natural and inorganic nanoparticles in the XLPE matrix. It also focuses on its characterization as well as the morphological, rheological, mechanical, viscoelastic, thermal, and electrical, properties. It provides an in-depth review of various potential applications, with special emphasis on use in cable insulation. The book focuses on cutting edge research developments, looking at published papers, patents, and production data. This book will be of use to academic and industry researchers, as well as graduate students working in the fields of polymer science and engineering, materials science, and chemical engineering. .
Macromolecules --- General biophysics --- Materials sciences --- Electrical engineering --- Applied physical engineering --- biologische materialen --- materiaalkennis --- nanotechniek --- polymeren
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