Thermitic thermodynamics : a computational survey and comprehensive interpretation of over 800 combinations of metals, metalloids, and oxides
Author(s)
Bibliographic Information
Thermitic thermodynamics : a computational survey and comprehensive interpretation of over 800 combinations of metals, metalloids, and oxides
CRC Press, c2020
Available at 2 libraries
Note
Includes bibliographical references and index
Summary: "Thermites, generally considered to be mixtures of metals and metal oxides, are an important subset of energetic materials. Describing the results of calculations on 800 possible combinations of metal and metal oxide reactants, this practical overview will serve those in energetic materials, pyrometallurgy, chemistry, and materials science"-- Provided by publisher
Contents of Works
- An introduction to thermitic reactivity
- Characteristics of the metal-metal oxide reaction matrix
- Some thermodynamic concepts and considerations
- Applying thermodynamic concepts
- Additional topics
- Magnesium-oxidizer systems
- Titanium-oxidizer systems
- Zirconium-oxidizer systems
- Hafnium-oxidizer systems
- Vanadium-oxidizer systems
- Niobium-oxidizer systems
- Tantalum-oxidizer systems
- Chromium-oxidizer systems
- Molybdenum-oxidizer systems
- Tungsten-oxidizer systems
- Manganese-oxidizer systems
- Iron-oxidizer systems
- Cobalt-oxidizer systems
- Nickel-oxidizer systems
- Copper-oxidizer systems
- Zinc-oxidizer systems
- Cadmium-oxidizer systems
- Boron-oxidizer systems
- Aluminum-oxidizer systems
- Silicon-oxidizer systems
- Tin-oxidizer systems
- Lead-oxidizer systems
- Antimony-oxidizer systems
- Bismuth-oxidizer systems
- Systems involving group 3 and lanthanide elements
- Systems involving actinide elements
- Metal-boron systems and Ti-B4C, Ti-C
- Metal-silicon systems
- Intermetallic systems