ISSN:
0890-6955
eISSN:
1879-2170
Disciplines
(Field of Science):
- biomedical engineering (Engineering and Technology)
- civil engineering, geodesy and transport (Engineering and Technology)
- materials engineering (Engineering and Technology)
- mechanical engineering (Engineering and Technology)
(Field of Science)
Ministry points: Help
Year | Points | List |
---|---|---|
Year 2024 | 200 | Ministry scored journals list 2024 |
Year | Points | List |
---|---|---|
2024 | 200 | Ministry scored journals list 2024 |
2023 | 200 | Ministry Scored Journals List |
2022 | 200 | Ministry Scored Journals List 2019-2022 |
2021 | 200 | Ministry Scored Journals List 2019-2022 |
2020 | 200 | Ministry Scored Journals List 2019-2022 |
2019 | 200 | Ministry Scored Journals List 2019-2022 |
2018 | 45 | A |
2017 | 45 | A |
2016 | 45 | A |
2015 | 45 | A |
2014 | 45 | A |
2013 | 45 | A |
2012 | 45 | A |
2011 | 45 | A |
2010 | 32 | A |
Model:
Hybrid
Points CiteScore:
Year | Points |
---|---|
Year 2023 | 25.7 |
Year | Points |
---|---|
2023 | 25.7 |
2022 | 20.9 |
2021 | 17 |
2020 | 15.1 |
2019 | 13.6 |
2018 | 12.6 |
2017 | 9 |
2016 | 7.8 |
2015 | 7.6 |
2014 | 7.4 |
2013 | 6.6 |
2012 | 5.8 |
2011 | 5.5 |
Impact Factor:
Log in to see the Impact Factor.
Sherpa Romeo:
Papers published in journal
Filters
total: 3
Catalog Journals
Year 2019
-
Prediction of cutting forces during micro end milling considering chip thickness accumulation
Publication
Year 2015
-
Optimal spindle speed determination for vibration reduction during ball-end milling of flexible details
PublicationIn the paper a method of optimal spindle speed determination for vibration reduction during ball-end milling of flexible details is proposed. In order to reduce vibration level, an original procedure of the spindle speed optimisation, based on the Liao–Young criterion, is suggested. As the result, an optimal, constant spindle speed value is determined. For this purpose, on-stationary computational model of machining process is...
-
The estimation of cutting forces and specific force coefficients during finishing ball end milling of inclined surfaces
Publication
seen 756 times