Self-Propagating High-Temperature Synthesis
Published on 10. October 2001
Software
Digital media
236 pages
978-3-03859-714-8 (ISBN)
Description
Self-Propagating High-Temperature Synthesis is an attractive advanced technology for the synthesis of a wide variety of advanced materials, including powders and near net-shape products formed from ceramics, intermetallics, composites and functionally graded materials, by exploiting the heat-energy released by the exothermic reaction of raw materials via a self-sustaining combustion wave which propagates from one end of the specimen to the other. When compared with traditional technologies, remarkable savings in energy, time and equipment, and novel forms of equilibrium and non-equilibrium phases and high-purity products can result from using SHS.
More details
Language
English
Place of publication
Switzerland
Publishing group
Trans Tech Publications
Target group
Professional and scholarly
Dimensions
Height: 142 mm
Width: 125 mm
Thickness: 10 mm
Weight
200 gr
ISBN-13
978-3-03859-714-8 (9783038597148)
DOI
10.4028/www.scientific.net/KEM.217
Schweitzer Classification
Other editions
Additional editions
Chang-Chun Ge | A. S. Rogachev
Self-Propagating High-Temperature Synthesis
Book
10/2001
Trans Tech Publications Ltd
€80.00
Article exhausted; check different version
Trans Tech Publications Ltd | Chang Chun Ge | A.S. Rogachev
Self-Propagating High-Temperature Synthesis
E-Book
10/2001
Trans Tech Publications Ltd
€141.24
Available for download
Content
Thermodynamic Analysis of SHS ProcessesThermodynamic Analysis of Combustion Synthesis of Alumia/Boride CompositeMathematical 3d-Modeling for Spinning Gasless Combustion WavesThe Convectiv-Conductive Mode of the Reaction Zone Propagation: a New Mechanism of Combustion of 'Gasless' SystemsNon-Equilibrium Thermodynamic and Nonlinear Dynamic Analysis of Combustion Wave in SHS ProcessThe Effect of Electric Diffusion and Heat Losses on the SHS WaveMetal Liquid in SHS Reaction for TiB2 CeramicsThe Role of Molecular Gas-Phase and Conduction Heat Transfer in Propagation of Combustion WaveShock-Induced Chemical Reaction in Ti-C BlendsKinetic Parameters of the Thermal Explosion Reaction of Ni-Al-Fe SystemSHS under MicrogravitySelf-Organization of the Liquid Flame FrontLuminescence of the Corundum-Containing Ti Compounds Composites by Self-Propagating High-Temperature SynthesisReactive Fabrication of Nanocrystalline Titanium Carbides by Mechanical AlloyingChemically Activated SHS in Synthesis of Refractory Carbide PowdersMultiphase Ceramics and Cermets Made in One Step Synthesis and Densification by SHS/QPHysteresis Effects in High-Temperature Resistivity of SHS CeramicsJoining of SiC Ceramic to Ni-Based Superalloy with Cu Intermediate LayerTiNi and Other Intermetallic Compounds Prepared by SHS Process and the ApplicationsInvestigation on In-Situ NiAl-Based Composite Fabricated by HPESThermodynamic Analysis of TiO2-Al-C-ZrO2 Combustion Synthesis SystemCharacteristics of Combustion Reaction in Al-Fe2O3 System under Gravitational FieldPorous NiTi Alloy Prepared from Combustion SynthesisDevelopment of SHS Nitride-Based Composites in LSCPM, USTB of ChinaSelf-Propagating High-Temperature Synthesis of Nitrides - Progress of SHS in SICCASSHS and Some Properties of Sialon CeramicsSynthesis of Si3N4-TiN-SiC Composites by Combustion Reaction under High Nitrogen PressuresStructural Formation and Mechanism in Combustion Synthesis of Nitrogen Ceramics (AIN, Si3N4 and AIN-SiC)Self-Propagating Low-Temperature Synthesis of Ultrafine BaTiO3 PowdersSHS Immobilization of Radioactive WastesInterface Phenomena in Ceramic-Lined Composite Pipes Produced by GS-T SHS ProcessThe Design and Application of Automation Equipment for Producing SHS Curved Ceramic-Lined Composite PipesSHS Welding of Hard Alloy and SteelProperties of Ceramic-Lined Composite Steel Pipes and their Application