Thermitic Thermodynamics
-10%
portes grátis
Thermitic Thermodynamics
A Computational Survey and Comprehensive Interpretation of Over 800 Combinations of Metals, Metalloids, and Oxides
Shaw, Anthony Peter Gordon
Taylor & Francis Ltd
06/2020
1068
Dura
Inglês
9781138482821
15 a 20 dias
2381
Descrição não disponível.
Part 1 Thermitic Thermodynamics. Chapter 1 An Introduction to Thermitic Reactivity. Chapter 2 Characteristics of the Metal-Metal Oxide Reaction Matrix. Chapter 3 Some Thermodynamic Concepts and Considerations. Chapter 4 Applying Thermodynamic Concepts. Chapter 5 Additional Topics. Part 2 Adiabatic Descriptions of Binary Thermitic Systems. Chapter 6 Magnesium-Oxidizer Systems. Chapter 7 Titanium-Oxidizer Systems. Chapter 8 Zirconium-Oxidizer Systems. Chapter 9 Hafnium-Oxidizer Systems. Chapter 10 Vanadium-Oxidizer Systems. Chapter 11 Niobium-Oxidizer Systems. Chapter 12 Tantalum-Oxidizer Systems.Chapter 13 Chromium-Oxidizer Systems. Chapter 14 Molybdenum-Oxidizer Systems. Chapter 15 Tungsten-Oxidizer Systems. Chapter 16 Manganese-Oxidizer Systems. Chapter 17 Iron-Oxidizer Systems. Chapter 18 Cobalt-Oxidizer Systems. Chapter 19 Nickel-Oxidizer Systems. Chapter 20 Copper-Oxidizer Systems. Chapter 21 Zinc-Oxidizer Systems. Chapter 22 Cadmium-Oxidizer Systems. Chapter 23 Boron-Oxidizer Systems. Chapter 24 Aluminum-Oxidizer Systems. Chapter 25 Silicon-Oxidizer Systems. Chapter 26 Tin-Oxidizer Systems. Chapter 27 Lead-Oxidizer Systems. Chapter 28 Antimony-Oxidizer Systems. Chapter 29 Bismuth-Oxidizer Systems. Part 3 Additional Adiabatic Descriptions. Chapter 30 Systems Involving Group 3 and Lanthanide Elements. Chapter 31 Systems Involving Actinide Elements.Chapter 32 Metal-Boron Systems and Ti-B4C, Ti-C. Chapter 33 Metal-Silicon Systems. Chapter 34 Intermetallic Systems.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Adiabatic Equilibrium;binary thermite reactions;Gas Production Profiles;metal-metal oxide reactivity;SHS Process;non-oxide product formation in themitic systems;FToxid Databases;thermochemical calculations;Adiabatic Equilibrium Temperature;Metal Oxides;Adiabatic Temperature;thermite compositions;Peak Gas;thermite reactions;Peak Temperature;predictive thermite reactivity;SHS Reaction;oxide reactants;Gas Produced;pyrometallurgy;Unreacted Fuel;pyrotechnics;Thermitic Mixtures;thermodynamic properties;Thermitic Reactions;thermitic thermodynamics;Computational Survey;metalloids;Lanthanide Elements;SHS;Isothermal Reaction;Ellingham Diagrams;Gibbs Energy;Equilibrium;Chemical Equilibria;Flat Regions;Standard Reduction Potentials;Beta Transition;Boron Oxides
Part 1 Thermitic Thermodynamics. Chapter 1 An Introduction to Thermitic Reactivity. Chapter 2 Characteristics of the Metal-Metal Oxide Reaction Matrix. Chapter 3 Some Thermodynamic Concepts and Considerations. Chapter 4 Applying Thermodynamic Concepts. Chapter 5 Additional Topics. Part 2 Adiabatic Descriptions of Binary Thermitic Systems. Chapter 6 Magnesium-Oxidizer Systems. Chapter 7 Titanium-Oxidizer Systems. Chapter 8 Zirconium-Oxidizer Systems. Chapter 9 Hafnium-Oxidizer Systems. Chapter 10 Vanadium-Oxidizer Systems. Chapter 11 Niobium-Oxidizer Systems. Chapter 12 Tantalum-Oxidizer Systems.Chapter 13 Chromium-Oxidizer Systems. Chapter 14 Molybdenum-Oxidizer Systems. Chapter 15 Tungsten-Oxidizer Systems. Chapter 16 Manganese-Oxidizer Systems. Chapter 17 Iron-Oxidizer Systems. Chapter 18 Cobalt-Oxidizer Systems. Chapter 19 Nickel-Oxidizer Systems. Chapter 20 Copper-Oxidizer Systems. Chapter 21 Zinc-Oxidizer Systems. Chapter 22 Cadmium-Oxidizer Systems. Chapter 23 Boron-Oxidizer Systems. Chapter 24 Aluminum-Oxidizer Systems. Chapter 25 Silicon-Oxidizer Systems. Chapter 26 Tin-Oxidizer Systems. Chapter 27 Lead-Oxidizer Systems. Chapter 28 Antimony-Oxidizer Systems. Chapter 29 Bismuth-Oxidizer Systems. Part 3 Additional Adiabatic Descriptions. Chapter 30 Systems Involving Group 3 and Lanthanide Elements. Chapter 31 Systems Involving Actinide Elements.Chapter 32 Metal-Boron Systems and Ti-B4C, Ti-C. Chapter 33 Metal-Silicon Systems. Chapter 34 Intermetallic Systems.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Adiabatic Equilibrium;binary thermite reactions;Gas Production Profiles;metal-metal oxide reactivity;SHS Process;non-oxide product formation in themitic systems;FToxid Databases;thermochemical calculations;Adiabatic Equilibrium Temperature;Metal Oxides;Adiabatic Temperature;thermite compositions;Peak Gas;thermite reactions;Peak Temperature;predictive thermite reactivity;SHS Reaction;oxide reactants;Gas Produced;pyrometallurgy;Unreacted Fuel;pyrotechnics;Thermitic Mixtures;thermodynamic properties;Thermitic Reactions;thermitic thermodynamics;Computational Survey;metalloids;Lanthanide Elements;SHS;Isothermal Reaction;Ellingham Diagrams;Gibbs Energy;Equilibrium;Chemical Equilibria;Flat Regions;Standard Reduction Potentials;Beta Transition;Boron Oxides