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The thermodynamic properties of fluids are vital information for design, operation (including safety considerations) and maintenance in the fluid processing or continuous manufacturing industries.
The volume LB IV/15 Diffusion in Gases, Liquids, and Electrolytes is divided into three subvolumes. Part A: Gases in Gases, Liquids and their Mixtures; Part B: Liquids in Liquids and Liquid Mixtures; Part C: Ions and Electrolytes in Liquids, Electrolytes and Molten Salts.
Volume 11 of group IV presents phase diagrams, crystallographic and thermodynamic data of ternary alloy systems. It is a standard reference book with easily retrievable data from the fields of physics and chemistry collected by acknowledged scientists.
Volume 12 of group IV presents phase diagrams, crystallographic and thermodynamic data of binary alloy systems. The subvolume B contains systems from B-Ba to C-Zr. Volume 12 forms a supplement to volume 5.
Volume 11 of group IV presents phase diagrams, crystallographic and thermodynamic data of ternary alloy systems. At ambient pressure the equilibria of each individual ternary system are discussed as functions of temperature yielding spatial diagrams whose sections and projections are displayed.
Surface tension of liquids determine fundamental chemical and physical properties and applications. Cleansing agents, soldering agents, pharmalogical substances and biomechanical phenomena all rely on surface tensions and their deliberate modifications, so that a collection of reliable data will be of interest for users in science, research and engineering.This supplement volume contains surface tensions of non-electrolyte material systems, as well as surface tensions data of pure liquids and binary liquid mixtures at normal temperatures.
Zeolites and zeolite-like materials became important because of their ion exchange capacities and their outstanding catalytic properties. It is designed as a reference work for zeolite chemists and materials scientists, but it also serves as a tool to interpret structural similarities and to derive new structures from known topologies.
Volume 12 of group IV presents phase diagrams, crystallographic and thermodynamic data of binary alloy systems. The subvolume C contains systems from Dy-Er...Ir-Y. Volume 12 forms a supplement to volume 5.
The subject of this Landolt-Boernstein volume is to present data on the magnetic properties of materials under pressure. This comprehensive set of data shows crystallographic data (space group, lattice constants) and magnetic properties such as magnetic moment, magnetic transition temperature, magnetization, magnetic structure, and others.
This set of volumes focuses on data for ternary systems for one vitally important specific class of materials, steels.
The book first presents a thorough overview on the field of electrochemistry, to impart a precise understanding of the involved systems, and secondly collects all relevant data of electrochemical systems as reported up to the present time.
Focuses on data for ternary systems for one vitally important specific class of materials, steels. This title presents various diagrams for each system, calculated from a specially developed SGTE database for steels.
Electrochemistry is the basis of many important and modern applications and scientific developments such as nanoscale machining, electrochemistry at the atomic scale, scanning tunneling microscopy, transformation of energy in biological cells, selective electrodes for the determination of ions, and new kinds of electrochemical cells, batteries and fuel cells.The present subvolume contains the related relevant data together with a precise description of the phenomena.
Covers viscosities of pure organic liquids and binary liquid mixtures at different temperatures and pressures including organic liquids, organometallic liquids, and organononmetallic liquids and their mixtures.
Electrochemistry is the basis of many important and modern applications and scientific developments such as nanoscale machining (fabrication of miniature devices with three dimensional control in the nanometer scale), electrochemistry at the atomic scale, scanning tunneling microscopy, transformation of energy in biological cells, selective electrodes for the determination of ions, and new kinds of electrochemical cells, batteries and fuel cells. In particular the latter point has increased the need for fundamental data of electrochemical systems in recent years, to enable academic and corporate institutions to conduct thorough and forward-thinking research.The present volume IV/9B2 comprises data on the ionic conductance of deep eutectic systems and electrolyte solutions. Definitions and an overview on theory and measurement methods are to be found in the previous volume IV/9B1.
The storage of electric energy depends on the capacity of the associated electrical components. The material''s dielectric constant directly governs this capacity. Dielectric constants therefore gain renewed attention with the increasing need of saving, accumulating and delivering energy produced in the most various ways (wind energy, solar energy, feed-back energy etc.).This supplementary volume contains static dielectric constants as a function of temperature, and - for the binary mixtures - as a function of composition.The focus lies on non-electrolyte systems and pure and binary liquid mixtures at normal pressure.
Zeolites and zeolite-like materials became important because of their ion exchange capacities and their outstanding catalytic properties. It is designed as a reference work for zeolite chemists and materials scientists, but it also serves as a tool to interpret structural similarities and to derive new structures from known topologies.
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