424 pages | 25 Color Illus. | 145 B/W Illus.
Exposes a Powerful Material-Making Tool
Dedicated to the physical, chemical, and structural transformations that take place during combustion synthesis (CS) of advanced materials, Combustion for Material Synthesis analyzes the nature of solid flame phenomenon and provides readers with undisputed proof that ‘fire’ is a powerful tool used in making materials. Of interest to specialists in the field of materials engineering, this book explores the physical and chemical principles of synthesis of materials in the self-sustained combustion mode. It describes mechanisms for a variety of solid–solid and gas–solid reactions and examines structure and properties of different materials produced by CS.
The authors discuss a wide range of topics, including phenomenology, theory, experimental methods and observations, as well as properties of the product synthesized and approaches for large-scale materials production using the combustion synthesis technique. They examine conventional concepts and present recent breakthroughs in the field of materials synthesis by rapid self-sustained reactions that include fabrication of different nanomaterials. They compare CS with other methods, factoring in different types of combustion processes, including processes that can occur in a vacuum, inert gas, or oxygen-free atmosphere.
Covering research on topics that have been around for a while, but not widely circulated, this work:
Authored by world-recognized specialists in the field of combustion synthesis for advanced materials, Combustion for Material Synthesis presents the state of the art in R&D in the field of CS, focusing on the fabrication of novel materials. It is intended for researchers, engineers, and graduate students from different disciplines and is also suggested as recommended reading for materials science courses.
Self-propagating High-temperature Synthesis: History and Present
Gasless combustion synthesis
Combustion synthesis with gasification of the reagents
Combustion synthesis in gas–solid systems
Combustion synthesis with a reduction stage: the thermite type systems and nanothermites
Combustion synthesis with inorganic compounds as precursors
Thermal decomposition of complex compounds
Solution combustion synthesis
Mechanical activation of initial powder mixtures for SHS
Reactive multilayer nanofilms (foils)
Thermodynamics and Kinetics of SHS
Thermodynamics and driving force of SHS processes
Kinetics of heterogeneous reactions
Theory of Structural Macrokinetics
Introduction: The concept of structural macrokinetics
Macrokinetics of thermal explosion
Macrokinetics of combustion
Theoretical models of structure formation in SHS
Experimental Structural Macrokinetics of SHS Processes
Commercialization and Industrial Applications of SHS Products
Powders and cakes
Cermets and functionally graded materials
Products of SHS metallurgy
Application of multilayer reaction nanofilms