149 Works

Low cycle fatigue - strain control test data for AISI 304L ar material at 300 °C and nominal strain range of 1.2 % (thirtieth nominally repeat test)

A McLennan &
Data created at Jacobs during the Horizon 2020 INCEFA+ project on increasing safety in NPPs by covering gaps in environmental fatigue assessment. This project has received funding from the Euratom research and training programme 2014-2018 under grant agreement No 662320.

Low cycle fatigue - strain control test data for AISI 304L ar material at 300 °C and nominal strain range of 1.2 % (thirty-first nominally repeat test)

A McLennan &
Data created at Jacobs during the Horizon 2020 INCEFA+ project on increasing safety in NPPs by covering gaps in environmental fatigue assessment. This project has received funding from the Euratom research and training programme 2014-2018 under grant agreement No 662320.

Low cycle fatigue - strain control test data for AISI 304L 304 AISI ar material at 300 °C and nominal strain range of 1.2 %

L De Baglion, L Doremus &
AREVA NP SAS data collection made available as background to the Horizon 2020 INCEFA-PLUS project on increasing safety in NPPs by covering gaps in environmental fatigue assessment. This project has received funding from the Euratom research and training programme 2014-2018 under grant agreement No 662320.

Uniaxial tensile test data for P92 nt material at 20 °C

F De Haan &
Small punch tensile and creep data obtained in a round robin exercise for the elaboration of an EN standard on small punch testing. Several test materials have been tested. For estimating the tensile properties a series of tests were carried out at room and elevated temperatures. Further tests were performed at varying temperatures between 77K and room temperature to determine the ductile to brittle transition temperature (DBTT). Creep tests have also been carried out.

Low cycle fatigue - strain control test data for AISI 304L ar material at 300 °C and nominal strain range of .6 % (thirty-seventh nominally repeat test)

S. Arrieta Gómez, F.J. Perosanz López &
Data created by CIEMAT during the Horizon 2020 INCEFA-PLUS project on increasing safety in NPPs by covering gaps in environmental fatigue assessment. This project has received funding from the Euratom research and training programme 2014-2018 under grant agreement No 662320.

Low cycle fatigue - strain control test data for AISI 304L ar material at 300 °C and nominal strain range of .76 %

S. Arrieta Gómez, F.J. Perosanz López &
Data created by CIEMAT during the Horizon 2020 INCEFA-PLUS project on increasing safety in NPPs by covering gaps in environmental fatigue assessment. This project has received funding from the Euratom research and training programme 2014-2018 under grant agreement No 662320.

Low cycle fatigue - strain control test data for AISI 304L ar material at 300 °C and nominal strain range of 1.2 % (twenty-third nominally repeat test)

R Cicero &
Data created at INESCO Ingenieros during the Horizon 2020 INCEFA+ project on increasing safety in NPPs by covering gaps in environmental fatigue assessment. This project has received funding from the Euratom research and training programme 2014-2018 under grant agreement No 662320.

Low cycle fatigue - strain control test data for AISI 304L ar material at 300.9 °C and nominal strain range of 1.2 %

A McLennan &
Data created at Jacobs during the Horizon 2020 INCEFA+ project on increasing safety in NPPs by covering gaps in environmental fatigue assessment. This project has received funding from the Euratom research and training programme 2014-2018 under grant agreement No 662320.

Low cycle fatigue - strain control test data for AISI 304L ar material at 300 °C and nominal strain range of 1.098 %

M Vankeerberghen, L Bens &
SC-13 PWR 300°C smooth 0.6%

Uniaxial tensile test data for AISI 316L ar material at 22 °Cnull

FJ De Haan &
The European Energy Research Alliance, set-up under the European Strategic Energy Technology Plan, has launched an initiative for a Joint Programme on Nuclear Materials (JPNM). The JPNM aims at establishing key priorities in the area of advanced nuclear materials, identifying funding opportunities and harmonizing this scientific & technical domain at the European level by maximizing complementarities and synergies with the major actors of the field. The JPNM partners propose, through MatISSE, a combination of Collaborative...

Small punch tensile/fracture test data for 15-15 Ti cw material at 550 °C and a displacement rate of .005 mm/s

F De Haan, S Holmström &
Data created at the JRC in the scope of the EERA JPNM pilot project TASTE to assess miniature testing techniques for fuel claddings.

Small punch tensile/fracture test data for 15-15 Ti cw material at 425 °C and a displacement rate of .005 mm/s

F De Haan, S Holmström &
Data created at the JRC in the scope of the EERA JPNM pilot project TASTE to assess miniature testing techniques for fuel claddings.

Small punch tensile/fracture test data for 15-15 Ti cw material at 700 °C and a displacement rate of .005 mm/s

F De Haan, S Holmström &
Data created at the JRC in the scope of the EERA JPNM pilot project TASTE to assess miniature testing techniques for fuel claddings.

Low cycle fatigue - strain control test data for AISI 304L ar material at 300 °C and nominal strain range of 1.228 %

M Vankeerberghen, L Bens &
Data created at SCK•CEN during the Horizon 2020 INCEFA+ project on increasing safety in NPPs by covering gaps in environmental fatigue assessment. This project has received funding from the Euratom research and training programme 2014-2018 under grant agreement No 662320.

Low cycle fatigue - strain control test data for AISI 304L ar material at 300 °C and nominal strain range of 1.2 % (tenth nominally repeat test)

JC Le Roux &
Data created at EDF R&D MMC during the Horizon 2020 INCEFA+ project on increasing safety in NPPs by covering gaps in environmental fatigue assessment. This project has received funding from the Euratom research and training programme 2014-2018 under grant agreement No 662320.

Low cycle fatigue - strain control test data for AISI 304L ar material at 300 °C and nominal strain range of 1.2 % (fifty-third nominally repeat test)

L De Baglion, L Doremus &
Data created by AREVA NP SAS during the Horizon 2020 INCEFA-PLUS project on increasing safety in NPPs by covering gaps in environmental fatigue assessment. This project has received funding from the Euratom research and training programme 2014-2018 under grant agreement No 662320.

Low cycle fatigue - strain control test data for AISI 304L ar material at 300 °C and nominal strain range of 1.2 % (thirty-eighth nominally repeat test)

S. Arrieta Gómez, F.J. Perosanz López &
Data created by CIEMAT during the Horizon 2020 INCEFA-PLUS project on increasing safety in NPPs by covering gaps in environmental fatigue assessment. This project has received funding from the Euratom research and training programme 2014-2018 under grant agreement No 662320.

Low cycle fatigue - strain control test data for AISI 304L ar material at 300 °C and nominal strain range of 1.2 % (thirty-fifth nominally repeat test)

S. Arrieta Gómez, F.J. Perosanz López &
Data created by CIEMAT during the Horizon 2020 INCEFA-PLUS project on increasing safety in NPPs by covering gaps in environmental fatigue assessment. This project has received funding from the Euratom research and training programme 2014-2018 under grant agreement No 662320.

Low cycle fatigue - strain control test data for AISI 304L ar material at 300 °C and nominal strain range of .626 %

M Vankeerberghen, L Bens &
Data created at SCK•CEN during the Horizon 2020 INCEFA+ project on increasing safety in NPPs by covering gaps in environmental fatigue assessment. This project has received funding from the Euratom research and training programme 2014-2018 under grant agreement No 662320.

Low cycle fatigue - strain control test data for AISI 304L ar material at 300 °C and nominal strain range of .6 % (eighteenth nominally repeat test)

R Cicero &
Data created at INESCO Ingenieros during the Horizon 2020 INCEFA+ project on increasing safety in NPPs by covering gaps in environmental fatigue assessment. This project has received funding from the Euratom research and training programme 2014-2018 under grant agreement No 662320.

Low cycle fatigue - strain control test data for X6 CrNiTi 18 10 ar sa material at 300 °C and nominal strain range of 1.2 % (second nominally repeat test)

M Ernestova &
ÚJV Rež, a. s. data collection made available as background to the Horizon 2020 INCEFA-PLUS project on increasing safety in NPPs by covering gaps in environmental fatigue assessment. This project has received funding from the Euratom research and training programme 2014-2018 under grant agreement No 662320.

Low cycle fatigue - strain control test data for AISI 304L ar material at 295 °C and nominal strain range of 1.2 %

P Spätig, H-P Seifert, R Schwenold &
INCEFA+ project

Low cycle fatigue - strain control test data for AISI 304L ar material at 300 °C and nominal strain range of 1.2 % (fiftieth nominally repeat test)

L De Baglion, L Doremus &
Data created by AREVA NP SAS during the Horizon 2020 INCEFA-PLUS project on increasing safety in NPPs by covering gaps in environmental fatigue assessment. This project has received funding from the Euratom research and training programme 2014-2018 under grant agreement No 662320.

Low cycle fatigue - strain control test data for X6 CrNiTi 18 10 ar sa material at 300 °C and nominal strain range of .6 % (third nominally repeat test)

M Ernestova &
ÚJV Rež, a. s. data collection made available as background to the Horizon 2020 INCEFA-PLUS project on increasing safety in NPPs by covering gaps in environmental fatigue assessment. This project has received funding from the Euratom research and training programme 2014-2018 under grant agreement No 662320.

Low cycle fatigue - strain control test data for X6 CrNiTi 18 10 ar sa material at 300 °C and nominal strain range of 1.2 % (second nominally repeat test)

M Ernestova &
ÚJV Rež, a. s. data collection made available as background to the Horizon 2020 INCEFA-PLUS project on increasing safety in NPPs by covering gaps in environmental fatigue assessment. This project has received funding from the Euratom research and training programme 2014-2018 under grant agreement No 662320.

Registration Year

  • 2019
    149

Resource Types

  • Dataset
    149