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Geosynthetics. --- Inorganic polymers. --- Inorganic compounds --- Polymers --- Geofabrics --- Materials --- Synthetic fabrics --- Geopolymers
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An introduction to the preparation, characterization and utilization of inorganic polymers, presenting an overview and a perspective of such areas as phosphasphazenes, polysiloxanes and polysilanes and developing the general underlying principles of this field.
Inorganic polymers --- Polymer solutions --- Liquid polymers --- Polymeric liquids --- Polymers --- Solution (Chemistry) --- Inorganic compounds --- Geopolymers --- Phosphazene polymers --- Polysilanes --- Polysiloxanes
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Inorganic, Polymeric and Composite Membranes: Structure-Function and Other Correlations covers the latest technical advances in topics such as structure-function relationships for polymeric, inorganic, and composite membranes. Leading scientists provide in depth reviews and disseminate cutting-edge research results on correlations but also discuss new materials, characterization, modelling, computational simulation, process concepts, and spectroscopy.Unified by fundamental general correlations themeMany graphical examplesCovers all major membrane types<
Inorganic polymers. --- Inorganic compounds. --- Compounds, Inorganic --- Inorganic chemicals --- Chemicals --- Chemistry, Inorganic --- Inorganic compounds --- Polymers --- Geopolymers --- Chemistry --- Polymers and Plastics
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A geopolymer is a solid aluminosilicate material usually formed by alkali hydroxide or alkali silicate activation of a solid precursor such as coal fly ash, calcined clay and/or metallurgical slag. Today the primary application of geopolymer technology is in the development of reduced-CO2 construction materials as an alternative to Portland-based cements. Geopolymers: structure, processing, properties and industrial applications reviews the latest research on and applications of these highly important materials.Part one discusses the synthesis and characterisation of geopolymers with c
Inorganic polymers. --- Soil cement. --- Polymer-impregnated cement. --- Cement --- Road materials --- Inorganic compounds --- Polymers --- Geopolymers --- Chemistry --- Polymers and Plastics
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Inorganic polymers --- Organometallic polymers --- Polymères inorganiques --- Polymères organométalliques --- Inorganic polymers. --- Organometallic polymers. --- Organometallic compounds --- Polymers --- Inorganic compounds --- Inorganic Chemistry --- Geopolymers --- Chemistry --- General and Others --- Polymers and Plastics
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Inorganic polymers --- 678.86 --- 546-126 --- Inorganic compounds --- Polymers --- Polymers based on other inorganic elements --- Inorganic chemistry--?-126 --- Inorganic polymers. --- 546-126 Inorganic chemistry--?-126 --- 678.86 Polymers based on other inorganic elements --- Inorganic compounds. --- Polymers. --- Geopolymers
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Nanostructured materials. --- Polymeric composites. --- Inorganic polymers. --- Inorganic compounds --- Polymers --- Composite polymeric materials --- Polymer-matrix composites --- Reinforced plastics --- Nanomaterials --- Nanometer materials --- Nanophase materials --- Nanostructure controlled materials --- Nanostructure materials --- Ultra-fine microstructure materials --- Microstructure --- Nanotechnology --- Geopolymers
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Polymers containing metals and metal-like atoms are essential materials for the extended opportunities and demands of the 21st century. This book describes the synthesis of some of these polymers and their potential application in many fields such as materials, biomedicine, engineering, communications, and ceramics.
Inorganic polymers. --- Organometallic polymers. --- Organometallic compounds --- Polymers --- Inorganic compounds --- Polymers. --- Chemistry, Organic. --- Medicine. --- Polymer Sciences. --- Organic Chemistry. --- Organometallic Chemistry. --- Biomedicine general. --- Clinical sciences --- Medical profession --- Human biology --- Life sciences --- Medical sciences --- Pathology --- Physicians --- Organic chemistry --- Chemistry --- Polymere --- Polymeride --- Polymers and polymerization --- Macromolecules --- Health Workforce --- Polymers . --- Organic chemistry. --- Organometallic chemistry . --- Biomedicine, general. --- Chemistry, Organometallic --- Metallo-organic chemistry --- Chemistry, Organic --- Geopolymers
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Diagenesis refers to changes taking place in sediments after deposition. In a theoretical treatment of early diagenesis, Robert Berner shows how a rigorous development of the mathematical modeling of diagenetic processes can be useful to the understanding and interpretation of both experimental and field observations. His book is unique in that the models are based on quantitative rate expressions, in contrast to the qualitative descriptions that have dominated the field.In the opening chapters, the author develops the mathematical theory of early diagenesis, introducing a general diagenetic equation and discussing it in terms of each major diagenetic process. Included are the derivations of basic rate equations for diffusion, compaction, pore-water flow, burial advection, bioturbation, adsorption, radioactive decay, and especially chemical and biochemical reactions. Drawing on examples from the recent literature on continental-margin, pelagic, and non-marine sediments, he then illustrates the power of these diagenetic models in the study of such deposits.The book is intended not only for earth scientists studying sediments and sedimentary rocks, but also for researchers in fields such as radioactive waste disposal, petroleum and economic geology, environmental pollution, and sea-floor engineering.
Diagenesis. --- G-type kinetics. --- Michaelis-Menten kinetics. --- adsorption. --- bacterial processes. --- bioturbation. --- cementation. --- denitriflcation. --- electrical double layer. --- formation factor. --- geopolymers. --- hypersaline sediments. --- ion exchange. --- lake sediments. --- manganese reduction. --- methane formation. --- nitrogen diagenesis. --- organic matter decomposition. --- phosphate diagenesis. --- radioisotope diagenesis. --- salinity fluctuations. --- silica dissolution. --- useful porosity. --- zero point of charge.
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Inorganic polymers --- Organometallic polymers --- Chemistry --- Physical Sciences & Mathematics --- Inorganic Chemistry --- Congresses --- 678.04 <063> --- 678.043 <063> --- -Organometallic polymers --- -Organometallic compounds --- Polymers --- Inorganic compounds --- Auxiliary materials. Additives--Congressen --- Vulcanizing agents. Cross-linking agents--Congressen --- -Auxiliary materials. Additives--Congressen --- 678.043 <063> Vulcanizing agents. Cross-linking agents--Congressen --- 678.04 <063> Auxiliary materials. Additives--Congressen --- -678.043 <063> Vulcanizing agents. Cross-linking agents--Congressen --- Organometallic compounds --- Geopolymers
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