High Temperature Material Processes: An International Quarterly of High-Technology Plasma Processes
Published 4 issues per year
ISSN Print: 1093-3611
ISSN Online: 1940-4360
IF:
0.7
5-Year IF:
0.5
Immediacy Index:
0.2
Eigenfactor:
0.00008
JCI:
0.09
SJR:
0.212
SNIP:
0.476
CiteScore™::
1.2
H-Index:
20
Indexed in
Aims and Scope
High Temperature Material Processes (HTM) is an important international publication devoted to original and invited review papers on fundamental and applied research and new developments in materials processing and synthesis at high temperatures with energy supply by laser, ion and electron beams, plasma flows, and related tools. Processes of interest include (but are not limited to) additive manufacturing, surface treatments, alloying, coatings production, nanostructure synthesis, welding, cutting, melting, re-melting and purification of metals, metallurgy (among them plasma metallurgy), powder densification, ultra-fine powder production, waste conversion and destruction. In addition, attention is paid to the development, description and study of experimental and industrial systems and devices for the implementation of high-technology plasma and beam processes. Thus, there is a broad range of coverage of experimental, analytical and numerical studies. High Temperature Material Processes will serve the needs of those who develop high temperature processes to produce materials with improved properties, surface treatments or coatings with given specifications, and will also promote connections between laboratories and industry.
Most Downloaded Articles
COMBUSTION OF POROUS SILICON IN AN OXYGEN ATMOSPHERE WITH A PRESSURE FROM 2 TO 33 BAR
AUTOGENOUS GAS TUNGSTEN ARC WELDABILITY OF FORGED TI−45AL−8.5NB−02W−02B−0.02Y ALLOY
SYNTHESIS, CRYSTAL STRUCTURE, AND MAGNETIC PROPERTIES OF LANTHANUM-STRONTIUM MANGANITES CONTAINING NICKEL IONS
TWO-DIMENSIONAL X-RAY DIFFRACTION TO INVESTIGATE γ/γ' LATTICE MISFITS IN DIFFERENT PREPARATIONS OF SINGLE-CRYSTAL NICKEL-BASED SUPERALLOY DD483
MAGNETRON SPUTTER DEPOSITION OF TUNGSTEN COATINGS IN DEUTERIUM−HELIUM MIXTURES