High Temperature Material Processes
Impact Factor & Key Scientometrics

High Temperature Material Processes
Overview

Impact Factor

0.826

H Index

20

Impact Factor

0.593

I. Basic Journal Info

Country

United States
Journal ISSN: 10933611, 19404360
Publisher: Begell House Inc.
History: 1997-ongoing
Journal Hompage: Link
How to Get Published:

Research Categories

Scope/Description:

High Temperature Material Processes is an important international publication devoted to original and invited review papers on fundamental and applied re-search and new developments in materials processing and synthesis at high temperatures, especially under the plasma action as well as the treatment by laser, ion and electron beams. Processes of interest include (but not limited to) surface treatments, alloying, coatings production, nanostructures 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.

II. Science Citation Report (SCR)



High Temperature Material Processes
SCR Impact Factor

High Temperature Material Processes
SCR Journal Ranking

High Temperature Material Processes
SCImago SJR Rank

SCImago Journal Rank (SJR indicator) is a measure of scientific influence of scholarly journals that accounts for both the number of citations received by a journal and the importance or prestige of the journals where such citations come from.

0.197

High Temperature Material Processes
Scopus 2-Year Impact Factor Trend

Note: impact factor data for reference only

High Temperature Material Processes
Scopus 3-Year Impact Factor Trend

Note: impact factor data for reference only

High Temperature Material Processes
Scopus 4-Year Impact Factor Trend

Note: impact factor data for reference only

High Temperature Material Processes
Impact Factor History

2-year 3-year 4-year
  • 2023 Impact Factor
    0.849 0.759 0.626
  • 2022 Impact Factor
    0.577 0.6 0.539
  • 2021 Impact Factor
    0.593 0.592 0.547
  • 2020 Impact Factor
    0.68 0.588 0.587
  • 2019 Impact Factor
    0.788 0.855 0.769
  • 2018 Impact Factor
    0.611 0.646 0.64
  • 2017 Impact Factor
    0.577 0.5 0.445
  • 2016 Impact Factor
    0.6 0.57 0.571
  • 2015 Impact Factor
    0.345 0.416 0.301
  • 2014 Impact Factor
    0.4 NA NA
  • 2013 Impact Factor
    0.036 NA NA
  • 2012 Impact Factor
    0.211 NA NA
  • 2011 Impact Factor
    0.347 NA NA
  • 2010 Impact Factor
    0.189 NA NA
  • 2009 Impact Factor
    0.507 NA NA
  • 2008 Impact Factor
    0.351 NA NA
  • 2007 Impact Factor
    0.357 NA NA
  • 2006 Impact Factor
    0.495 NA NA
  • 2005 Impact Factor
    0.184 NA NA
  • 2004 Impact Factor
    0.312 NA NA
  • 2003 Impact Factor
    0.126 NA NA
  • 2002 Impact Factor
    0.218 NA NA
  • 2001 Impact Factor
    0.447 NA NA
  • 2000 Impact Factor
    0.247 NA NA
Note: impact factor data for reference only

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Impact Factor

Impact factor (IF) is a scientometric factor based on the yearly average number of citations on articles published by a particular journal in the last two years. A journal impact factor is frequently used as a proxy for the relative importance of a journal within its field. Find out more: What is a good impact factor?


III. Other Science Influence Indicators

Any impact factor or scientometric indicator alone will not give you the full picture of a science journal. There are also other factors such as H-Index, Self-Citation Ratio, SJR, SNIP, etc. Researchers may also consider the practical aspect of a journal such as publication fees, acceptance rate, review speed. (Learn More)

High Temperature Material Processes
H-Index

The h-index is an author-level metric that attempts to measure both the productivity and citation impact of the publications of a scientist or scholar. The index is based on the set of the scientist's most cited papers and the number of citations that they have received in other publications

20

High Temperature Material Processes
H-Index History