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Automated Author Profile

Bettocchi, Nicola

Current S-Index

4.9

Sum of Dataset Indices for all datasets

Average Dataset Index per Dataset

0.2

Average Dataset Index per dataset

Total Datasets

30

Total datasets for this author

Average FAIR Score

15.1%

Average FAIR Score per dataset

Total Citations

0

Total citations to the author's datasets

Total Mentions

0

Total mentions of the author's datasets

S-Index Interpretation

S-Index Over Time

Cumulative Citations Over Time

Cumulative Mentions Over Time

Datasets

Low cycle fatigue - strain control test data for P91 material at 550 °C (specimen identifier [64] PM 35913) (Version: 1.1)

The objective is to predict the effects of the interaction between Creep-Fatigue and Low Cycle Fatigue. The strategy is to mix fatigue cycles with determined strain amplitude and hold times of different durations.

Authors

  • Bettocchi, Nicola ;
  • ENEA C.R. Brasimone (ITALY)
0 Citations0 Mentions15% FAIR0.2 Dataset Index
10.5290/2540031October 2023

Low cycle fatigue - strain control test data for P91 material at 550 °C (specimen identifier [9] PM 30413) (Version: 1.1)

The objective is to predict the effects of the interaction between Creep-Fatigue and Low Cycle Fatigue. The strategy is to mix fatigue cycles with determined strain amplitude and hold times of different durations.

Authors

  • Bettocchi, Nicola ;
  • ENEA C.R. Brasimone (ITALY)
0 Citations0 Mentions15% FAIR0.2 Dataset Index
10.5290/2540061October 2023

Low cycle fatigue - strain control test data for P91 material at 550 °C (specimen identifier [61] PM 35613) (Version: 1.1)

The objective is to predict the effects of the interaction between Creep-Fatigue and Low Cycle Fatigue. The strategy is to mix fatigue cycles with determined strain amplitude and hold times of different durations.

Authors

  • Bettocchi, Nicola ;
  • ENEA C.R. Brasimone (ITALY)
0 Citations0 Mentions15% FAIR0.2 Dataset Index
10.5290/2540063October 2023

Low cycle fatigue - strain control test data for P91 material at 550 °C (specimen identifier [46] PM 34113) (Version: 1.1)

The objective is to predict the effects of the interaction between Creep-Fatigue and Low Cycle Fatigue. The strategy is to mix fatigue cycles with determined strain amplitude and hold times of different durations.

Authors

  • Bettocchi, Nicola ;
  • ENEA C.R. Brasimone (ITALY)
0 Citations0 Mentions13% FAIR0.1 Dataset Index
10.5290/2540067October 2023

Low cycle fatigue - strain control test data for P91 material at 550 °C (specimen identifier [42] PM 33713) (Version: 1.1)

The objective is to predict the effects of the interaction between Creep-Fatigue and Low Cycle Fatigue. The strategy is to mix fatigue cycles with determined strain amplitude and hold times of different durations.

Authors

  • Bettocchi, Nicola ;
  • ENEA C.R. Brasimone (ITALY)
0 Citations0 Mentions15% FAIR0.2 Dataset Index
10.5290/2540069October 2023

Low cycle fatigue - strain control test data for P91 material at 550 °C (specimen identifier [65] PM 36013) (Version: 1.1)

The objective is to predict the effects of the interaction between Creep-Fatigue and Low Cycle Fatigue. The strategy is to mix fatigue cycles with determined strain amplitude and hold times of different durations.

Authors

  • Bettocchi, Nicola ;
  • ENEA C.R. Brasimone (ITALY)
0 Citations0 Mentions15% FAIR0.2 Dataset Index
10.5290/2540071October 2023

Low cycle fatigue - strain control test data for P91 material at 550 °C (specimen identifier [5] PM 30013) (Version: 1.1)

The objective is to predict the effects of the interaction between Creep-Fatigue and Low Cycle Fatigue. The strategy is to mix fatigue cycles with determined strain amplitude and hold times of different durations.

Authors

  • Bettocchi, Nicola ;
  • ENEA C.R. Brasimone (ITALY)
0 Citations0 Mentions15% FAIR0.2 Dataset Index
10.5290/2540073October 2023

Low cycle fatigue - strain control test data for P91 material at 550 °C (specimen identifier [37] PM 33213) (Version: 1.1)

The objective is to predict the effects of the interaction between Creep-Fatigue and Low Cycle Fatigue. The strategy is to mix fatigue cycles with determined strain amplitude and hold times of different durations.

Authors

  • Bettocchi, Nicola ;
  • ENEA C.R. Brasimone (ITALY)
0 Citations0 Mentions15% FAIR0.2 Dataset Index
10.5290/2540075October 2023

Low cycle fatigue - strain control test data for P91 material at 550 °C (specimen identifier [59] PM 35413) (Version: 1.1)

The objective is to predict the effects of the interaction between Creep-Fatigue and Low Cycle Fatigue. The strategy is to mix fatigue cycles with determined strain amplitude and hold times of different durations.

Authors

  • Bettocchi, Nicola ;
  • ENEA C.R. Brasimone (ITALY)
0 Citations0 Mentions13% FAIR0.1 Dataset Index
10.5290/2540077October 2023

Low cycle fatigue - strain control test data for P91 material at 550 °C (specimen identifier [21] PM 31613) (Version: 1.1)

The objective is to predict the effects of the interaction between Creep-Fatigue and Low Cycle Fatigue. The strategy is to mix fatigue cycles with determined strain amplitude and hold times of different durations.

Authors

  • Bettocchi, Nicola ;
  • ENEA C.R. Brasimone (ITALY)
0 Citations0 Mentions15% FAIR0.2 Dataset Index
10.5290/2540079October 2023