Results 261 to 270 of about 52,031 (301)

Self-propagating high-temperature synthesis of molybdenum disilicide

Journal of Materials Science, 1991
Molybdenum disilicide was synthesized from elemental reactants in argon and vacuum atmospheres by utilizing the exothermicity of the reaction using self-propagating high temperature synthesis. Experiments were carried out using powdered reactants and compacts with varying densities.
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Self-propagating high-temperature synthesis of the SiC

Journal of Materials Research, 1986
Self-propagating high-temperature synthesis (SHS), also called combustion synthesis, is useful for fabricating numerous ceramics. In the case of SiC, heat released from the exothermic reaction is not sufficient to completely convert the mixed reactants of constituent elements into SiC in the usual nonadiabatic experimental system.
Osamu Yamada, Yoshinari Miyamoto, Mitsue Koizumi   +2 more
openaire   +1 more source

Nonequiatomic NiTi Alloy Produced by Self Propagating High Temperature Synthesis

Journal of Materials Engineering and Performance, 2014
Shape memory alloy NiTi in porous form is of high interest as implantable material, as low apparent elastic modulus, comparable to that of bone, can be achieved. This condition, combined with proper pore size, allows good osteointegration. Porous NiTi can be produced by self propagating high temperature synthesis (SHS), starting from mixed powders of ...
Bassani P, Bassani E, Tuissi A, Giuliani P, Zanotti C   +4 more
openaire   +3 more sources

The chemistry of self-propagating high-temperature synthesis

Journal of Materials Chemistry, 2004
The chemistry of SHS is briefly reviewed and illustrated by some examples of the practical implementation of SHS-produced powders, ceramics, hard alloys, cast materials, and items. Outlined are some promising lines of further R & D in the field.
openaire   +1 more source

Some aspects in self-propagating high-temperature synthesis

Ceramics International, 2004
A general and historical review of the SHS process (Self-propagating High-temperature Synthesis) has been considered. The influence of reaction parameters such as particle size, stoichiometry of the reactants, pellet size and green density, gas pressure, is reported.
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Self-Propagating High-Temperature Synthesis

2001
Chang Chun Ge, A.S. Rogachev
openaire   +2 more sources

Self‐propagating high‐temperature synthesis

Advanced Materials, 1990
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Microstructure and properties of porous Si3N4 ceramics by gelcasting-self-propagating high-temperature synthesis (SHS)

Journal of Advanced Ceramics, 2021
Liang Wang, Gang He, Chang-An Wang
exaly  

IR-transparent MgO-Gd2O3 composite ceramics produced by self-propagating high-temperature synthesis and spark plasma sintering

Journal of Advanced Ceramics, 2021
Dmitry A Permin, Ksenia E Smetanina
exaly  

Self-propagating high-temperature synthesis of advanced materials and coatings

International Materials Reviews, 2017
Alexander Mukasyan, Alexander Rogachev, Dmitry Shtansky   +2 more
exaly