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International Journal of Self-Propagating High-Temperature Synthesis
International Journal of Self-Propagating High-Temperature Synthesis is a peer-reviewed journal that explores a broad spectrum of subjects pertaining to self-propagating high-temperature synthesis (SHS) and related areas. SHS is a method used to produce advanced materials by harnessing internally generated chemical energy through solid-state combustion. The journal covers a wide range of subjects, including the fundamentals of SHS processes, the chemistry and technology of SHS products and advanced materials, as well as related fields, such as the kinetics and thermodynamics of high-temperature chemical reactions, combustion theory, macroscopic kinetics of nonisothermic processes, etc. The primary objective of the journal is to facilitate a broad exchange of research findings and promote a deeper understanding of the developmental and innovative trends in SHS science and applications. As part of its aim to become an international publication, the journal welcomes submissions in English from all countries. Peer review and editorial policy
The journal follows the Springer Nature Peer Review Policy, Process and Guidance , Springer Nature Journal Editors' Code of Conduct , and COPE's Ethical Guidelines for Peer-reviewers .
Approximately 5% of the manuscripts are rejected without review based on formal criteria as they do not comply with the submission guidelines. Each manuscript is assigned to two peer reviewers. The journal follows a single-blind reviewing procedure. The period from submission to the first decision is up to 5 weeks. The approximate rejection rate is 10%. The final decision on the acceptance of a manuscript for publication is made by the Editor-in-Chief and responsible editors taking into account the opinions of Editorial Board members.
If Editors, including the Editor-in-Chief, publish in the journal, they do not participate in the decision-making process for manuscripts where they are listed as co-authors.
Special issues published in the journal follow the same procedures as all other issues. If not stated otherwise, special issues are prepared by the members of the Editorial Board without guest editors.
Current Issue
![international journal of self propagating high temperature synthesis Open Access](https://journals.rcsi.science/lib/pkp/templates/images/icons/text_open.png)
Vol 28, No 4 (2019)
- Articles: 13
- URL: https://journals.rcsi.science/1061-3862/issue/view/12295
Metallothermic SHS in Conditions of Artificial Gravity: Mathematical Modeling
Metallothermic SHS in conditions of artificial gravity was numerically modelled for the 3NiO + 2Al → Al 2 O 3 + 3Ni reaction taken as an example. The process was assumed to include (a) high-temperature combustion reaction yielding liquid products, (b) their gravity-assisted separation, and (c) cooling down. In our ‘throughout’ mathematical model, a three-component emulsion—gas, metal, and ceramics—with individual translational velocities and temperatures was considered. Our model may expectedly extend the range of control means for SHS reactions in extreme conditions.
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Combustion of Gasless Systems: Thermocapillary Convection of Metal Melt
The role of thermocapillary convection in combustion of gasless binary mixtures containing a low-melting reagent was explored by numerical modeling. Variation in relative amounts of reagents and starting sample porosity was found to change a mode of combustion wave propagation over the binary systems under consideration.
SHS Reprocessing of Copper Oxide Waste into Copper Powder
Here we report on a single-step, eco-friendly, and facile approach to combustion-assisted reprocessing of oily copper waste into copper powder without preliminary cleaning. Complete reduction of copper from oily copper waste in the combustion wave was reached in the presence of ammonium nitrate and without introducing any reducing agent. The optimal conditions for obtaining >99 % copper powder were reached for green [Cu 2 O + m (oil)] + x Nt mixtures with m = 7–11 wt % and x = 0.35–0.55, were m stands in wt % and x in mole fractions, both in relation to 1 g-mol of Cu 2 O. In scale-up experiments (up to 10 kg of green mixture), the copper powder with oxygen content below 0.5 wt % and free carbon content below 0.25 wt % was successfully produced. Our approach was also successfully applied to combustion-assisted reduction of copper oxide oily waste mixed with nickel oxide to yield composite powders and Cu–Ni alloys.
Thermodynamic Analysis of the CaO–Y 2 O 3 –ZrO 2 –Ti–Fe 2 O 3 System as a Precursor for SHS-Produced Pyrochlore-Based Ceramics
The paper reports on the thermodynamic analysis of the CaO–Y 2 O 3 –ZrO 2 –Ti–Fe 2 O 3 system as a precursor for SHS-produced pyrochlore-based ceramics. Adiabatic combustion temperature T ad and equilibrium concentration of pyrochlore were first calculated for the quasi-ternary system Y 2 O 3 –ZrO 2 –(Ti + Fe 2 O 3 ) containing no CaO. It was found that, in the presence of CaO, a best yield of Zr-enriched pyrochlore ceramic can be reached within the following domain of green compositions (wt %): CaO 2.5–5.0, Y 2 O 3 22.5–35.0, ZrO 2 7.5–22.5, and (40% Ti + 60% Fe 2 O 3 ) 45.0–60.0; within this domain, T ad = 2100–2400°K. Although in control experiments T ad was found to be within the range 1700–1970 K, nevertheless the combustion products always showed the presence of pyrochlore-based ceramic, as predicted by thermodynamic analysis.
Electron Beam Assisted Deposition of Ni–Al Coatings onto Steel Substrate
We suggest a mathematical model for electron-beam assisted deposition of protective coatings that involves the equations of heat conduction, chemical kinetics, and porosity evolution. The model was numerically applied to the reactive Ni–Al system and theoretical predictions were critically analyzed by comparison with experiment.
SHS of Ti 3 SiC 2 -Based Materials in the Ti–Si–C System: Impact of Silicon Excess
For SHS of Ti 3 SiC 2 -based materials in the Ti–Si–C system, we explored the impact of silicon excess on the composition of resultant MAX-phase material by XRD and SEM methods. After hot pressing, SHS-produced MAX-phase material was found to contain over 88 wt % of Ti 3 SiC 2 . The SHS-produced powders are sinterable and deserve further studies on their hot pressing and pressure-less reactive sintering.
Single-Step Solution-Combustion Synthesis of Magnetically Soft NiFe 2 O 4 Nanopowders with Controllable Parameters
One-step solution-combustion synthesis with glycine as a fuel was used to obtain ferromagnetic nickel ferrite (NiFe 2 O 4 ) spinel. According to EDX data, the elemental composition of all synthesized samples corresponded to NiFe 2 O 4 , while the XRD results showed the formation of phase-pure nickel ferrite spinel. NiFe 2 O 4 nanopowders had a branched porous microstructure as established by SEM analysis. Variation in the Red/Ox ratio (glycine to nitrate ratio G/N = 0.4, 0.6, 0.8, 1.0, 1.2) was found to affect the average size of nickel ferrite crystallites ( D ) within the range 23–37 nm. The results of vibration magnetometry showed the ferromagnetic ordering in magnetic moments of NiFe 2 O 4 nanopowders. The magnetic parameters of synthesized nickel ferrite—saturation magnetization M s = 31–59 emu/g, remanent magnetization M r = 3–13 emu/g, and coercive force H c = 10–95 Oe—were found to depend on crystallite size D . The fact that the values of M s , M r , and H c grow with increasing D opens up a way to synthesis of NiFe 2 O 4 nanopowders with controllable magnetic parameters by simply varying the G/N ratio of starting solution.
Brief Communications
Effect of aluminum doping on structural and mechanical properties of ni–mg ferrites, mo-based composites reinforced with nb, si, and b by metallothermic shs under artificial gravity, combustion of granulated ni–al mixtures: influence of mechanoactivation time, heusler phases ni 2 alm (m = ti, zr, hf, nb) by shs method, this website uses cookies.
International Journal of Self-Propagating High-Temperature Synthesis
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Subject Area and Category
- Process Chemistry and Technology
- Materials Science (miscellaneous)
Pleiades Publishing
Publication type
10613862, 1934788X
2007, 2011-2023
Information
How to publish in this journal
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The set of journals have been ranked according to their SJR and divided into four equal groups, four quartiles. Q1 (green) comprises the quarter of the journals with the highest values, Q2 (yellow) the second highest values, Q3 (orange) the third highest values and Q4 (red) the lowest values.
Category | Year | Quartile |
---|---|---|
Materials Science (miscellaneous) | 2012 | Q3 |
Materials Science (miscellaneous) | 2013 | Q3 |
Materials Science (miscellaneous) | 2014 | Q2 |
Materials Science (miscellaneous) | 2015 | Q2 |
Materials Science (miscellaneous) | 2016 | Q3 |
Materials Science (miscellaneous) | 2017 | Q3 |
Materials Science (miscellaneous) | 2018 | Q2 |
Materials Science (miscellaneous) | 2019 | Q3 |
Materials Science (miscellaneous) | 2020 | Q3 |
Materials Science (miscellaneous) | 2021 | Q3 |
Materials Science (miscellaneous) | 2022 | Q3 |
Materials Science (miscellaneous) | 2023 | Q4 |
Process Chemistry and Technology | 2012 | Q3 |
Process Chemistry and Technology | 2013 | Q3 |
Process Chemistry and Technology | 2014 | Q2 |
Process Chemistry and Technology | 2015 | Q3 |
Process Chemistry and Technology | 2016 | Q3 |
Process Chemistry and Technology | 2017 | Q3 |
Process Chemistry and Technology | 2018 | Q3 |
Process Chemistry and Technology | 2019 | Q3 |
Process Chemistry and Technology | 2020 | Q3 |
Process Chemistry and Technology | 2021 | Q4 |
Process Chemistry and Technology | 2022 | Q4 |
Process Chemistry and Technology | 2023 | Q4 |
The SJR is a size-independent prestige indicator that ranks journals by their 'average prestige per article'. It is based on the idea that 'all citations are not created equal'. SJR is a measure of scientific influence of 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 It measures the scientific influence of the average article in a journal, it expresses how central to the global scientific discussion an average article of the journal is.
Year | SJR |
---|---|
2012 | 0.171 |
2013 | 0.222 |
2014 | 0.349 |
2015 | 0.325 |
2016 | 0.245 |
2017 | 0.264 |
2018 | 0.337 |
2019 | 0.337 |
2020 | 0.341 |
2021 | 0.255 |
2022 | 0.224 |
2023 | 0.180 |
Evolution of the number of published documents. All types of documents are considered, including citable and non citable documents.
Year | Documents |
---|---|
2011 | 49 |
2012 | 36 |
2013 | 44 |
2014 | 43 |
2015 | 46 |
2016 | 43 |
2017 | 37 |
2018 | 47 |
2019 | 52 |
2020 | 52 |
2021 | 47 |
2022 | 47 |
2023 | 39 |
This indicator counts the number of citations received by documents from a journal and divides them by the total number of documents published in that journal. The chart shows the evolution of the average number of times documents published in a journal in the past two, three and four years have been cited in the current year. The two years line is equivalent to journal impact factor ™ (Thomson Reuters) metric.
Cites per document | Year | Value |
---|---|---|
Cites / Doc. (4 years) | 2011 | 0.000 |
Cites / Doc. (4 years) | 2012 | 0.306 |
Cites / Doc. (4 years) | 2013 | 0.400 |
Cites / Doc. (4 years) | 2014 | 0.612 |
Cites / Doc. (4 years) | 2015 | 0.581 |
Cites / Doc. (4 years) | 2016 | 0.533 |
Cites / Doc. (4 years) | 2017 | 0.642 |
Cites / Doc. (4 years) | 2018 | 0.740 |
Cites / Doc. (4 years) | 2019 | 0.988 |
Cites / Doc. (4 years) | 2020 | 1.006 |
Cites / Doc. (4 years) | 2021 | 0.963 |
Cites / Doc. (4 years) | 2022 | 0.778 |
Cites / Doc. (4 years) | 2023 | 0.535 |
Cites / Doc. (3 years) | 2011 | 0.000 |
Cites / Doc. (3 years) | 2012 | 0.306 |
Cites / Doc. (3 years) | 2013 | 0.400 |
Cites / Doc. (3 years) | 2014 | 0.612 |
Cites / Doc. (3 years) | 2015 | 0.659 |
Cites / Doc. (3 years) | 2016 | 0.481 |
Cites / Doc. (3 years) | 2017 | 0.652 |
Cites / Doc. (3 years) | 2018 | 0.817 |
Cites / Doc. (3 years) | 2019 | 1.094 |
Cites / Doc. (3 years) | 2020 | 1.096 |
Cites / Doc. (3 years) | 2021 | 0.881 |
Cites / Doc. (3 years) | 2022 | 0.775 |
Cites / Doc. (3 years) | 2023 | 0.479 |
Cites / Doc. (2 years) | 2011 | 0.000 |
Cites / Doc. (2 years) | 2012 | 0.306 |
Cites / Doc. (2 years) | 2013 | 0.400 |
Cites / Doc. (2 years) | 2014 | 0.613 |
Cites / Doc. (2 years) | 2015 | 0.644 |
Cites / Doc. (2 years) | 2016 | 0.393 |
Cites / Doc. (2 years) | 2017 | 0.652 |
Cites / Doc. (2 years) | 2018 | 0.775 |
Cites / Doc. (2 years) | 2019 | 1.131 |
Cites / Doc. (2 years) | 2020 | 0.848 |
Cites / Doc. (2 years) | 2021 | 0.808 |
Cites / Doc. (2 years) | 2022 | 0.667 |
Cites / Doc. (2 years) | 2023 | 0.511 |
Evolution of the total number of citations and journal's self-citations received by a journal's published documents during the three previous years. Journal Self-citation is defined as the number of citation from a journal citing article to articles published by the same journal.
Cites | Year | Value |
---|---|---|
Self Cites | 2011 | 0 |
Self Cites | 2012 | 4 |
Self Cites | 2013 | 10 |
Self Cites | 2014 | 25 |
Self Cites | 2015 | 29 |
Self Cites | 2016 | 14 |
Self Cites | 2017 | 18 |
Self Cites | 2018 | 26 |
Self Cites | 2019 | 31 |
Self Cites | 2020 | 31 |
Self Cites | 2021 | 27 |
Self Cites | 2022 | 19 |
Self Cites | 2023 | 21 |
Total Cites | 2011 | 0 |
Total Cites | 2012 | 15 |
Total Cites | 2013 | 34 |
Total Cites | 2014 | 79 |
Total Cites | 2015 | 81 |
Total Cites | 2016 | 64 |
Total Cites | 2017 | 86 |
Total Cites | 2018 | 103 |
Total Cites | 2019 | 139 |
Total Cites | 2020 | 149 |
Total Cites | 2021 | 133 |
Total Cites | 2022 | 117 |
Total Cites | 2023 | 70 |
Evolution of the number of total citation per document and external citation per document (i.e. journal self-citations removed) received by a journal's published documents during the three previous years. External citations are calculated by subtracting the number of self-citations from the total number of citations received by the journal’s documents.
Cites | Year | Value |
---|---|---|
External Cites per document | 2011 | 0 |
External Cites per document | 2012 | 0.224 |
External Cites per document | 2013 | 0.282 |
External Cites per document | 2014 | 0.419 |
External Cites per document | 2015 | 0.423 |
External Cites per document | 2016 | 0.376 |
External Cites per document | 2017 | 0.515 |
External Cites per document | 2018 | 0.611 |
External Cites per document | 2019 | 0.850 |
External Cites per document | 2020 | 0.868 |
External Cites per document | 2021 | 0.702 |
External Cites per document | 2022 | 0.649 |
External Cites per document | 2023 | 0.336 |
Cites per document | 2011 | 0.000 |
Cites per document | 2012 | 0.306 |
Cites per document | 2013 | 0.400 |
Cites per document | 2014 | 0.612 |
Cites per document | 2015 | 0.659 |
Cites per document | 2016 | 0.481 |
Cites per document | 2017 | 0.652 |
Cites per document | 2018 | 0.817 |
Cites per document | 2019 | 1.094 |
Cites per document | 2020 | 1.096 |
Cites per document | 2021 | 0.881 |
Cites per document | 2022 | 0.775 |
Cites per document | 2023 | 0.479 |
International Collaboration accounts for the articles that have been produced by researchers from several countries. The chart shows the ratio of a journal's documents signed by researchers from more than one country; that is including more than one country address.
Year | International Collaboration |
---|---|
2011 | 14.29 |
2012 | 19.44 |
2013 | 25.00 |
2014 | 11.63 |
2015 | 13.04 |
2016 | 9.30 |
2017 | 8.11 |
2018 | 10.64 |
2019 | 11.54 |
2020 | 3.85 |
2021 | 6.38 |
2022 | 17.02 |
2023 | 5.13 |
Not every article in a journal is considered primary research and therefore "citable", this chart shows the ratio of a journal's articles including substantial research (research articles, conference papers and reviews) in three year windows vs. those documents other than research articles, reviews and conference papers.
Documents | Year | Value |
---|---|---|
Non-citable documents | 2011 | 0 |
Non-citable documents | 2012 | 1 |
Non-citable documents | 2013 | 1 |
Non-citable documents | 2014 | 1 |
Non-citable documents | 2015 | 0 |
Non-citable documents | 2016 | 0 |
Non-citable documents | 2017 | 0 |
Non-citable documents | 2018 | 0 |
Non-citable documents | 2019 | 0 |
Non-citable documents | 2020 | 0 |
Non-citable documents | 2021 | 0 |
Non-citable documents | 2022 | 0 |
Non-citable documents | 2023 | 3 |
Citable documents | 2011 | 0 |
Citable documents | 2012 | 48 |
Citable documents | 2013 | 84 |
Citable documents | 2014 | 128 |
Citable documents | 2015 | 123 |
Citable documents | 2016 | 133 |
Citable documents | 2017 | 132 |
Citable documents | 2018 | 126 |
Citable documents | 2019 | 127 |
Citable documents | 2020 | 136 |
Citable documents | 2021 | 151 |
Citable documents | 2022 | 151 |
Citable documents | 2023 | 143 |
Ratio of a journal's items, grouped in three years windows, that have been cited at least once vs. those not cited during the following year.
Documents | Year | Value |
---|---|---|
Uncited documents | 2011 | 0 |
Uncited documents | 2012 | 38 |
Uncited documents | 2013 | 65 |
Uncited documents | 2014 | 78 |
Uncited documents | 2015 | 75 |
Uncited documents | 2016 | 95 |
Uncited documents | 2017 | 82 |
Uncited documents | 2018 | 68 |
Uncited documents | 2019 | 61 |
Uncited documents | 2020 | 78 |
Uncited documents | 2021 | 89 |
Uncited documents | 2022 | 86 |
Uncited documents | 2023 | 99 |
Cited documents | 2011 | 0 |
Cited documents | 2012 | 11 |
Cited documents | 2013 | 20 |
Cited documents | 2014 | 51 |
Cited documents | 2015 | 48 |
Cited documents | 2016 | 38 |
Cited documents | 2017 | 50 |
Cited documents | 2018 | 58 |
Cited documents | 2019 | 66 |
Cited documents | 2020 | 58 |
Cited documents | 2021 | 62 |
Cited documents | 2022 | 65 |
Cited documents | 2023 | 47 |
Evolution of the percentage of female authors.
Year | Female Percent |
---|---|
2011 | 29.76 |
2012 | 38.96 |
2013 | 29.58 |
2014 | 30.49 |
2015 | 30.23 |
2016 | 32.93 |
2017 | 35.80 |
2018 | 32.26 |
2019 | 35.00 |
2020 | 27.73 |
2021 | 40.00 |
2022 | 34.15 |
2023 | 39.33 |
Evolution of the number of documents cited by public policy documents according to Overton database.
Documents | Year | Value |
---|---|---|
Overton | 2011 | 0 |
Overton | 2012 | 0 |
Overton | 2013 | 0 |
Overton | 2014 | 0 |
Overton | 2015 | 0 |
Overton | 2016 | 0 |
Overton | 2017 | 0 |
Overton | 2018 | 0 |
Overton | 2019 | 0 |
Overton | 2020 | 0 |
Overton | 2021 | 0 |
Overton | 2022 | 0 |
Overton | 2023 | 0 |
Evoution of the number of documents related to Sustainable Development Goals defined by United Nations. Available from 2018 onwards.
Documents | Year | Value |
---|---|---|
SDG | 2018 | 4 |
SDG | 2019 | 6 |
SDG | 2020 | 3 |
SDG | 2021 | 3 |
SDG | 2022 | 4 |
SDG | 2023 | 1 |
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Journal Metrics
- 8 191 Downloads 2023 Springer measures the usage on the SpringerLink platform according to the COUNTER (Counting Online Usage of NeTworked Electronic Resources) standards.
- 48 Usage Factor 2022/2023 The Springer Journal Usage Factor 2022/2023 was calculated as suggested by the COUNTER Code of Practice for Usage Factors. It is the median value of the number of downloads in 2022/2023 for all articles published online in that particular journal during the same time period. The Usage Factor calculation is based on COUNTER-compliant usage data on the SpringerLink platform. (Counting Online Usage of NeTworked Electronic Resources) standards.
- 0.6 Impact Factor 2022 Journal Impact Factors are published each summer by Thomson Reuters via Journal Citation Reports ®. Impact Factors and ranking data are presented for the preceding calendar year.
- 0.30 Source Normalized Impact per Paper (SNIP) 2023 Source Normalized Impact per Paper (SNIP) measures contextual citation impact by weighting citations based on the total number of citations in a subject field. The impact of a single citation is given higher value in subject areas where citations are less likely, and vice versa.
- Q4 Quartile: Materials Science (miscellaneous) 2023 The set of journals have been ranked according to their SJR and divided into four equal groups, four quartiles. Q1 (green) comprises the quarter of the journals with the highest values, Q2 (yellow) the second highest values, Q3 (orange) the third highest values and Q4 (red) the lowest values.
- 0.18 SCImago Journal Rank (SJR) 2023 SCImago Journal Rank (SJR) 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.
- 20 H-Index 2023 A journal has an H index of h if it published h papers each of which has been cited in other journals at least h times. Calculations are based on Scopus.
International Journal of Self-Propagating High-Temperature Synthesis is a peer-reviewed journal that explores a broad spectrum of subjects pertaining to self-propagating high-temperature synthesis (SHS) and related areas. SHS is a method used to produce advanced materials by harnessing internally generated chemical energy through solid-state combustion. The journal covers a wide range of subjects, including the fundamentals of SHS processes, the chemistry and technology of SHS products and advanced materials, as well as related fields, such as the kinetics and thermodynamics of high-temperature chemical reactions, combustion theory, macroscopic kinetics of nonisothermic processes, etc. The primary objective of the journal is to facilitate a broad exchange of research findings and promote a deeper understanding of the developmental and innovative trends in SHS science and applications. As part of its aim to become an international publication, the journal welcomes submissions in English from all countries.
ABSTRACTING & INDEXING
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Linking ISSN (ISSN-L): 1061-3862
Incorrect ISSN: 1061-3862
URL https://rd.springer.com/journal/12003/volumes-and-issues
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Resource information
Archival status.
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Title proper: International journal of self-propagating high-temperature synthesis.
Country: United States
Medium: Online
Status | Publisher | Keeper | From | To | Updated | Extent of archive |
---|---|---|---|---|---|---|
Preserved | Springer | CLOCKSS Archive | 2007 | 2024 | 17/06/2024 | |
In Progress | Springer | LOCKSS Archive | 2012 | 2019 | 17/06/2024 | |
Preserved | Springer | LOCKSS Archive | 2013 | 2018 | 17/06/2024 | |
Preserved | Springer | Library of Congress | 2018 | 2023 | 13/06/2024 | |
Preserved | Springer Nature | National Digital Preservation Program, China | 2007 | 2023 | 09/04/2024 | |
Preserved | Springer Nature | National Digital Preservation Program, China | 2007 | 2021 | 25/07/2023 | |
Preserved | Springer Nature | National Digital Preservation Program, China | 2007 | 2022 | 08/01/2024 | |
Preserved | Springer Nature | National Digital Preservation Program, China | 2007 | 2021 | 13/10/2023 | |
Preserved | Springer Nature | National Digital Preservation Program, China | 2009 | 2011 | 13/10/2023 | |
Preserved | Springer Nature | National Digital Preservation Program, China | 2009 | 2011 | 09/04/2024 | |
Preserved | Springer Nature | National Digital Preservation Program, China | 2009 | 2011 | 08/01/2024 | |
Preserved | Springer Nature | National Digital Preservation Program, China | 2009 | 2011 | 25/07/2023 | |
Preserved | Allerton Press, Springer | National Library of the Netherlands | 2007 | 2019 | 20/10/2023 | |
Preserved | Springer | Portico | 2007 | 2024 | 18/06/2024 | |
Preserved | Springer | Scholars Portal | 2007 | 2023 | 02/06/2024 | |
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Type of record: Confirmed
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International Journal of Self-Propagating High-Temperature Synthesis Impact, Factor and Metrics, Impact Score, Ranking, h-index, SJR, Rating, Publisher, ISSN, and More
Impact score.
Note: The impact score or impact index shown here is equivalent to the average number of times documents published in a journal/conference in the past two years have been cited in the current year (i.e., Cites / Doc. (2 years)). It is based on Scopus data and can be a little higher or different compared to the impact factor (IF) produced by Journal Citation Report. Please refer to the Web of Science data source to check the exact journal impact factor ™ (Thomson Reuters) metric.
Important Metrics and Factor
International Journal of Self-Propagating High-Temperature Synthesis | |
Int. J. Self-Propagating High-Temp. Synth. | |
Journal | |
Materials Science (miscellaneous) (Q3); Process Chemistry and Technology (Q4) | |
18 | |
17982 | |
0.224 | |
0.68 | |
Pleiades Publishing | |
United States | |
10613862, 1934788X | |
Q3 | |
2007, 2011-2022 |
About International Journal of Self-Propagating High-Temperature Synthesis
International Journal of Self-Propagating High-Temperature Synthesis is a journal covering the technologies/fields/categories related to Materials Science (miscellaneous) (Q3); Process Chemistry and Technology (Q4) . It is published by Pleiades Publishing . The overall rank of International Journal of Self-Propagating High-Temperature Synthesis is 17982 . According to SCImago Journal Rank (SJR) , this journal is ranked 0.224 . SCImago Journal Rank is an indicator, which measures the scientific influence of journals. It considers the number of citations received by a journal and the importance of the journals from where these citations come. SJR acts as an alternative to the Journal Impact Factor (or an average number of citations received in last 2 years). This journal has an h-index of 18 . The best quartile for this journal is Q3 .
The ISSN of International Journal of Self-Propagating High-Temperature Synthesis journal is 10613862, 1934788X . An International Standard Serial Number (ISSN) is a unique code of 8 digits. It is used for the recognition of journals, newspapers, periodicals, and magazines in all kind of forms, be it print-media or electronic. International Journal of Self-Propagating High-Temperature Synthesis is cited by a total of 119 articles during the last 3 years (Preceding 2022).
International Journal of Self-Propagating High-Temperature Synthesis Impact IF 2022-2023
The Impact IF 2022 of International Journal of Self-Propagating High-Temperature Synthesis is 0.68 , which is computed in 2023 as per its definition. International Journal of Self-Propagating High-Temperature Synthesis IF is decreased by a factor of 0.12 and approximate percentage change is -15% when compared to preceding year 2021, which shows a falling trend. The impact IF , also denoted as Journal impact score (JIS), of an academic journal is a measure of the yearly average number of citations to recent articles published in that journal. It is based on Scopus data.
International Journal of Self-Propagating High-Temperature Synthesis Impact IF 2023 Prediction
Impact IF 2022 of International Journal of Self-Propagating High-Temperature Synthesis is 0.68 . If the same downward trend persists, Impact IF may fall in 2023 as well.
Impact IF Trend
Year wise impact if of international journal of self-propagating high-temperature synthesis. based on scopus data..
Year | Impact IF |
---|---|
2023/2024 | Coming Soon |
2022 | 0.68 |
2021 | 0.80 |
2020 | 0.85 |
2019 | 1.11 |
2018 | 0.78 |
2017 | 0.57 |
2016 | 0.39 |
2015 | 0.64 |
2014 | 0.61 |
International Journal of Self-Propagating High-Temperature Synthesis h-index
International Journal of Self-Propagating High-Temperature Synthesis has an h-index of 18 . It means 18 articles of this journal have more than 18 number of citations. The h-index is a way of measuring the productivity and citation impact of the publications. The h-index is defined as the maximum value of h such that the given journal/author has published h papers that have each been cited at least h number of times.
International Journal of Self-Propagating High-Temperature Synthesis ISSN
The ISSN of International Journal of Self-Propagating High-Temperature Synthesis is 10613862, 1934788X . ISSN stands for International Standard Serial Number.
An ISSN is a unique code of 8 digits. It is used for the recognition of journals, newspapers, periodicals, and magazines in all kind of forms, be it print-media or electronic.
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International Journal of Self-Propagating High-Temperature Synthesis Rank and SCImago Journal Rank (SJR)
The overall rank of International Journal of Self-Propagating High-Temperature Synthesis is 17982 . According to SCImago Journal Rank (SJR), this journal is ranked 0.224 . SCImago Journal Rank is an indicator, which measures the scientific influence of journals. It considers the number of citations received by a journal and the importance of the journals from where these citations come.
SJR of International Journal of Self-Propagating High-Temperature Synthesis by Year
Year | SJR |
---|---|
2023/2024 | Coming Soon |
2022 | 0.224 |
2021 | 0.255 |
2020 | 0.341 |
2019 | 0.337 |
2018 | 0.337 |
2017 | 0.264 |
2016 | 0.245 |
2015 | 0.325 |
2014 | 0.349 |
Ranking of International Journal of Self-Propagating High-Temperature Synthesis by Year
Year | Ranking |
---|---|
2023/2024 | Coming Soon |
2022 | 17982 |
2021 | 16266 |
2020 | 13599 |
2019 | 13246 |
2018 | 12743 |
2017 | 14532 |
2016 | 15467 |
2015 | 12708 |
2014 | 11729 |
International Journal of Self-Propagating High-Temperature Synthesis Publisher
International Journal of Self-Propagating High-Temperature Synthesis is published by Pleiades Publishing . It's publishing house is located in United States . Coverage history of this journal is as following: 2007, 2011-2022 . The organization or individual who handles the printing and distribution of printed or digital publications is known as Publisher.
Call For Papers
Visit the official website of the journal/conference to check the further details about the call for papers.
Abbreviation
The IS0 4 standard abbreviation of International Journal of Self-Propagating High-Temperature Synthesis is Int. J. Self-Propagating High-Temp. Synth. . This abbreviation ('Int. J. Self-Propagating High-Temp. Synth.') is well recommended and approved for the purpose of indexing, abstraction, referencing and citing goals. It meets all the essential criteria of ISO 4 standard.
ISO 4 (International Organization for Standardization 4) is an international standard that defines a uniform and consistent system for abbreviating serial publication titles and journals.
How to publish in International Journal of Self-Propagating High-Temperature Synthesis
If your research field is/are related to Materials Science (miscellaneous) (Q3); Process Chemistry and Technology (Q4) , then please visit the official website of this journal .
Acceptance Rate
- The demand or interest of researchers/scientists in publishing in a specific Journal/Conference.
- Peer review complexity and timeline.
- The mix of unsolicited and invited submissions.
- The time it takes from manuscript submission to final publication.
- And Many More.
It is essential to understand that the acceptance rate/rejection rate of papers varies among journals. Some Journals considers all the manuscripts submissions as a basis of acceptance rate computation. On the other hand, few consider the only manuscripts sent for peer review or few even not bother about the accurate maintenance of total submissions. Hence, it can provide a rough estimation only.
The best way to find out the acceptance rate is to reach out to the associated editor or to check the official website of the Journal/Conference.
Frequently Asked Questions (FAQs)
What's the latest impact if of the international journal of self-propagating high-temperature synthesis.
International Journal of Self-Propagating High-Temperature Synthesis latest impact IF is 0.68 . It's evaluated in the year 2022. The highest and the lowest impact IF or impact score of this journal are 1.11 (2019) and 0.39 (2016) , respectively, in the last 9 years. Moreover, its average IS is 0.71 in the previous 9 years.
What's the SCImago Journal Rank (SJR) of the International Journal of Self-Propagating High-Temperature Synthesis?
The International Journal of Self-Propagating High-Temperature Synthesis has an SJR (SCImago Journal Rank) of 0.224 , according to the latest data. It is computed in the year 2023. In the past 9 years, this journal has recorded a range of SJR, with the highest being 0.349 in 2014 and the lowest being 0.224 in 2022. Furthermore, the average SJR of the International Journal of Self-Propagating High-Temperature Synthesis over the previous 9-year period stands at 0.71.
What's the latest h-index of the International Journal of Self-Propagating High-Temperature Synthesis?
The latest h-index of the International Journal of Self-Propagating High-Temperature Synthesis is 18 .
Who's the publisher of the International Journal of Self-Propagating High-Temperature Synthesis?
The International Journal of Self-Propagating High-Temperature Synthesis is published by the Pleiades Publishing , with its country of publication being the United States.
What's the current ranking of the International Journal of Self-Propagating High-Temperature Synthesis?
The International Journal of Self-Propagating High-Temperature Synthesis is currently ranked 17982 out of 27955 Journals, Conferences, and Book Series in the latest ranking. Over the course of the last 9 years, this journal has experienced varying rankings, reaching its highest position of 11729 in 2014 and its lowest position of 17982 in 2022.
What's the abbreviation or short name for the International Journal of Self-Propagating High-Temperature Synthesis?
The standard ISO4 abbreviation for the International Journal of Self-Propagating High-Temperature Synthesis is Int. J. Self-Propagating High-Temp. Synth. .
Is the "International Journal of Self-Propagating High-Temperature Synthesis" classified as a Journal, Conference and Proceedings, Trade Journal or Book Series?
International Journal of Self-Propagating High-Temperature Synthesis is classified as a journal that the Pleiades Publishing publishes.
What's the scope or major areas of the International Journal of Self-Propagating High-Temperature Synthesis?
- Materials Science (miscellaneous)
- Process Chemistry and Technology
For a more comprehensive understanding of its scope, check the official website of this journal.
What's the ISSN of the International Journal of Self-Propagating High-Temperature Synthesis?
The International Journal of Self-Propagating High-Temperature Synthesis is assigned the following International Standard Serial Numbers (ISSN): 10613862, 1934788X .
What's the best quartile of the International Journal of Self-Propagating High-Temperature Synthesis?
The best quartile for the International Journal of Self-Propagating High-Temperature Synthesis is Q3 (2022).
What's the coverage history of the International Journal of Self-Propagating High-Temperature Synthesis?
The International Journal of Self-Propagating High-Temperature Synthesis coverage history can be summarized as follows: 2007, 2011-2022 .
Credits and Sources
- Scimago Journal & Country Rank (SJR), https://www.scimagojr.com/
- Journal Impact Factor, https://clarivate.com/
Impact Score, h-Index, and Other Important Details of These Journals, Conferences, and Books
Journal/Conference/Workshop/Book Title | Type | Ranking | Publisher | h-index | Impact Score |
---|---|---|---|---|---|
Check complete list
Year wise Impact Score (IS) of International Journal of Self-Propagating High-Temperature Synthesis
Year | Impact Score (IS) |
---|---|
2023/2024 | Coming Soon |
2022 | 0.68 |
2021 | 0.80 |
2020 | 0.85 |
2019 | 1.11 |
2018 | 0.78 |
2017 | 0.57 |
2016 | 0.39 |
2015 | 0.64 |
2014 | 0.61 |
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Effects of ti/al ratio on formation of ti-al intermetallics/tib 2 composites by shs from ti-al-b powder mixtures.
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Yeh, C.-L.; Chan, Y.-C. Effects of Ti/Al Ratio on Formation of Ti-Al Intermetallics/TiB 2 Composites by SHS from Ti-Al-B Powder Mixtures. Processes 2024 , 12 , 1237. https://doi.org/10.3390/pr12061237
Yeh C-L, Chan Y-C. Effects of Ti/Al Ratio on Formation of Ti-Al Intermetallics/TiB 2 Composites by SHS from Ti-Al-B Powder Mixtures. Processes . 2024; 12(6):1237. https://doi.org/10.3390/pr12061237
Yeh, Chun-Liang, and Yi-Cheng Chan. 2024. "Effects of Ti/Al Ratio on Formation of Ti-Al Intermetallics/TiB 2 Composites by SHS from Ti-Al-B Powder Mixtures" Processes 12, no. 6: 1237. https://doi.org/10.3390/pr12061237
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International Journal of Self-Propagating High-Temperature Synthesis Impact Factor & Key Scientometrics
International journal of self-propagating high-temperature synthesis overview, impact factor, i. basic journal info, journal issn: 10613862, 1934788x, publisher: pleiades publishing, history: 2011-2021, journal hompage: link, how to get published:, research categories, scope/description:, ii. science citation report (scr), international journal of self-propagating high-temperature synthesis scr impact factor, international journal of self-propagating high-temperature synthesis scr journal ranking, international journal of self-propagating high-temperature synthesis scimago sjr rank, international journal of self-propagating high-temperature synthesis scopus 2-year impact factor trend, international journal of self-propagating high-temperature synthesis scopus 3-year impact factor trend, international journal of self-propagating high-temperature synthesis scopus 4-year impact factor trend, international journal of self-propagating high-temperature synthesis impact factor history, iii. other science influence indicators, international journal of self-propagating high-temperature synthesis h-index, international journal of self-propagating high-temperature synthesis h-index history.
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COMMENTS
Overview. International Journal of Self-Propagating High-Temperature Synthesis is a peer-reviewed journal focusing on all aspects of this method for producing both inorganic and organic compounds by exothermic combustion reactions in solids of different nature. The only journal devoted solely to self-propagating high-temperature synthesis and ...
On the Nature of the Pyrophoricity of Metal Nanopowders. M. I. Alymov. B. S. Seplyarskii. BRIEF COMMUNICATIONS 09 January 2023 Pages: 288 - 291. 1. 2. …. 16. International Journal of Self-Propagating High-Temperature Synthesis is a peer-reviewed journal focusing on all aspects of this method for producing both ...
International Journal of Self-Propagating High-Temperature Synthesis is a peer-reviewed journal that explores a broad spectrum of subjects pertaining to self-propagating high-temperature synthesis (SHS) and related areas.SHS is a method used to produce advanced materials by harnessing internally generated chemical energy through solid-state combustion.
Search all International Journal of Self-Propagating High-Temperature Synthesis articles. Volume 33 March 2024. Issue 1 March 2024. Volume 32 March - December 2023. Issue 4 December 2023. Issue 3 September 2023. Issue 2 June 2023. Issue 1 March 2023. Volume 31 March - December 2022.
The journal is intended to provide a wide-ranging exchange of research results and a better understanding of developmental and innovative trends in SHS science and applications. The International Journal of Self-Propagating High-Temperature Synthesis (ISSN 1061-3862) publishes reviews, original papers, brief communications and letters to the ...
The journal is intended to provide a wide-ranging exchange of research results and a better understanding of developmental and innovative trends in SHS science and applications. The International Journal of Self-Propagating High-Temperature Synthesis (ISSN 1061-3862) publishes reviews, original papers, brief communications and letters to the ...
Scope. International Journal of Self-Propagating High-Temperature Synthesis is an international journal covering a wide range of topics concerned with self-propagating high-temperature synthesis (SHS), the process for the production of advanced materials based on solid-state combustion utilizing internally generated chemical energy. Subjects ...
International Journal of Self-Propagating High-Temperature Synthesis. The effect of Ag interlayers 0, 60, 420, and 900 nm thick on the reaction of Ni with Fe in epitaxial Ni (001)/Ag (001)/Fe (001 ...
This is an international journal embracing a wide scope of topics concerning SHS science and technology and adjacent areas. The journal publishes reviews, original papers, and brief communications on various aspects of SHS. ... Concise Encyclopedia of Self-Propagating High-Temperature Synthesis, 2017, pp. 188-189. Dmitry V. Shtansky.
Concise Encyclopedia of Self-Propagating High-Temperature Synthesis. History, Theory, Technology, and Products. 2017, Pages 172-173. ... This is an international journal embracing a wide scope of topics concerning SHS science and technology and adjacent areas. The journal publishes reviews, original papers, and brief communications on various ...
Traditional publishing model - Published articles are made available to institutions and individuals who subscribe to International Journal of Self-Propagating High-Temperature Synthesis or who pay to read specific articles. If you would be interested in publishing open access in this journal please contact the Open Research Support Team ...
» International Journal of Self-Propagating High-Temperature Synthesis. Abbreviation: INT J SELF-PROPAG HI ISSN: 1061-3862 eISSN: 1934-788X ... » International Journal of Self-Propagating High-Temperature Synthesis. Abbreviation: INT J SELF-PROPAG HI ISSN: 1061-3862 eISSN: 1934-788X
Self-propagating high-temperature synthesis (SHS) is a method for producing both inorganic and organic compounds by exothermic combustion reactions in solids of different nature. Reactions can occur between a solid reactant coupled with either a gas, liquid, or other solid. If the reactants, intermediates, and products are all solids, it is known as a solid flame.
International Journal of Self-Propagating High-Temperature Synthesis is a peer-reviewed journal that explores a broad spectrum of subjects pertaining to self-propagating high-temperature synthesis (SHS) and related areas.SHS is a method used to produce advanced materials by harnessing internally generated chemical energy through solid-state combustion.
ISSN 1934-788X (Online) | International journal of self-propagating high-temperature ... International journal of self-propagating high-temperature synthesis (Online) Identifiers. ISSN : 1934-788X. Linking ISSN (ISSN-L): 1061-3862. Incorrect ISSN: 1061-3862. Resource information Archival Status. Title proper: International journal of self ...
Request PDF | International Journal of Self-Propagating High-Temperature Synthesis | This is an international journal embracing a wide scope of topics concerning SHS science and technology and ...
The Impact IF 2022 of International Journal of Self-Propagating High-Temperature Synthesis is 0.68, which is computed in 2023 as per its definition. International Journal of Self-Propagating High-Temperature Synthesis IF is decreased by a factor of 0.12 and approximate percentage change is -15% when compared to preceding year 2021, which shows a falling trend.
Ti-Al intermetallics/TiB2 composites were prepared from elemental powder mixtures by the method of self-propagating high-temperature synthesis (SHS). Reactant mixtures were formulated to contain two parts; one group was (2Ti + 4B) to form 2TiB2 and the other group was (Ti + xAl) to produce Ti-Al intermetallic compounds. The content of Al ranged between x = 0.33 and 3.0, which was equivalent to ...
Scope/Description: International Journal of SelfPropagating HighTemperature Synthesis is an international journal covering a wide range of topics concerned with selfpropagating hightemperature synthesis SHS the process for the production of advanced materials based on solidstate combustion utilizing internally generated chemical energy ...
This is an international journal embracing a wide scope of topics concerned with self-propagating high-temperature synthesis (SHS), the process for the production of advanced materials based on solid-state combustion utilizing internally generated chemical energy.
Erratum to: Mechanochemical Synthesis of Ni-Cr 3 C 2 Nanocomposite. S. Asgharzadeh. H. Sharifi. T. Isfahani. Erratum 09 January 2023 Pages: 292 - 292. Volume 31, issue 4 articles listing for International Journal of Self-Propagating High-Temperature Synthesis.
International Journal of Self-Propagating High-Temperature Synthesis ISSN I 06 I-3X62 Editor-in-Chief Alcx.andcr S. Rogm:hcv Merzhanov Institute of Structural Macrokinullt:s 1111d Mulol'luiN l·kltllltll!, l{ lltWIIIII At111lltiiii,Y ol' ~·klurH;cs. C hcrnogolovka, Russia 'oor diunl iuu ll;llllm· A ltiXIIIHitii' H, Hyltll'IHIV (1{1111~1111)
Zurnachyan AR, Kharatyan SL, Khachatryan HL, et al. Self-propagating high temperature synthesis of SiC-Cu and SiC-Al cermets: role of chemical activation. Int J Refract Metals Hard Mater 2011; 29: 250-255.
The ISSN (Online) of International Journal of Self-Propagating High-Temperature Synthesis is 1934-788X . An ISSN is an 8-digit code used to identify newspapers, journals, magazines and periodicals of all kinds and on all media-print and electronic. International Journal of Self-Propagating High-Temperature Synthesis Key Factor Analysis
The current issue of International Journal of Self-Propagating High-Temperature Synthesis is dedicated to the 50th anniversary of the 'solid flame' discovery, by A.G. Merzhanov, V.M. Shkiro, and I.P. Borovinskaya in 1967, which led to the development of rapid synthesis methods based on exothermic reactions in condensed systems. Today, Self-propagating High-temperature Synthesis (SHS) and ...