185 Works

Small punch creep test data for AISI 316L ar material at 700 °C and a load of 350 N

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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.

Small punch tensile/fracture test data for AISI 316L ar material at 24 °C and a displacement rate of .00833 mm/s (repeat test)

Petra Petelová & A. S. ÚJV Řež
Content area for UJV Rez, a.s. data created in the scope of the small punch test standardization project.

Small punch tensile/fracture test data for AISI 316L ar material at 24 °C and a displacement rate of .00833 mm/s (second repeat test)

Petra Petelová & A. S. ÚJV Řež
Content area for UJV Rez, a.s. data created in the scope of the small punch test standardization project.

Small punch tensile/fracture test data for AISI 316L ar material at 24 °C and a displacement rate of .00833 mm/s (fourth repeat test)

Petra Petelová & A. S. ÚJV Řež
Content area for UJV Rez, a.s. data created in the scope of the small punch test standardization project.

Small punch tensile/fracture test data for AISI 316L ar material at 300 °C and a displacement rate of .00833 mm/s (second repeat test)

Petra Petelová & A. S. ÚJV Řež
Content area for UJV Rez, a.s. data created in the scope of the small punch test standardization project.

Small punch tensile/fracture test data for AISI 316L ar material at 300 °C and a displacement rate of .00833 mm/s (fourth repeat test)

Petra Petelová & A. S. ÚJV Řež
Content area for UJV Rez, a.s. data created in the scope of the small punch test standardization project.

Small punch tensile/fracture test data for AISI 316L ar material at 24 °C and a displacement rate of .00833 mm/s (eighth repeat test)

Petra Petelová & A. S. ÚJV Řež
Content area for UJV Rez, a.s. data created in the scope of the small punch test standardization project.

Small punch tensile/fracture test data for AISI 316L ar material at 24 °C and a displacement rate of .00833 mm/s (ninth repeat test)

Petra Petelová & A. S. ÚJV Řež
Content area for UJV Rez, a.s. data created in the scope of the small punch test standardization project.

Small punch tensile/fracture test data for MA 956 material at 24 °C and a displacement rate of .00833 mm/s (second repeat test)

Petra Petelová & A. S. ÚJV Řež
Content area for UJV Rez, a.s. data created in the scope of the small punch test standardization project.

Uniaxial tensile test data for P92 nt material at 550 °C

F De Haan, S Holmstrom, M Bruchhausen &
Small punch and uniaxial tensile tests have been performed to support the methodologies for estimating the materials properties by small punch. The results obtained are for the elaboration of an EN standard on small punch testing.

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

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Data created at the Lithuanian Energy Institute (LEI) 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.

Nanoindentation (single cycle) test data for Gr. 91 material at 23 °C and maximum indenter force of 100 mN

A Ruiz &
Data created at the European Commission JRC in the scope of the EERA JPNM pilot project NINA on the topic of nanoindentation for nuclear applications.

Nanoindentation (single cycle) test data for Gr. 91 material at 23 °C and maximum indenter force of 5 mN

A Ruiz &
Data created at the European Commission JRC in the scope of the EERA JPNM pilot project NINA on the topic of nanoindentation for nuclear applications.

Nanoindentation (single cycle) test data for Gr. 91 material at 23 °C and maximum indenter force of 50 mN

A Ruiz &
Data created at the European Commission JRC in the scope of the EERA JPNM pilot project NINA on the topic of nanoindentation for nuclear applications.

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

Luc Doremus Laurent De Baglion &
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

A McLennan &
Data created at Amec Foster Wheeler 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 % (fourth nominally repeat test)

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Data created at the Lithuanian Energy Institute (LEI) 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 % (forty-ninth nominally repeat test)

Luc Doremus Laurent De Baglion &
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.

Micro-compression tests of 316L pillars

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Micro-compression tests of 316L pillars, room temperature, JRC results from the EU - SOTERIA project.

Low cycle fatigue - strain control test data for AISI 304L ar material at 300 °C and nominal strain range of .4 % (second 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 302.3 °C and nominal strain range of .6 %

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.

Catalog of JRC Open Access uniaxial creep and small punch test data for a low alloy - 2¼Cr 1Mo V modified ferritic steel.

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The data in this catalog were created in the scope of a programme designed to evaluate the reliability of the Small Punch (SP) testing method as an alternative mechanical test technique for evaluation of the residual life and integrity assessment of components in ageing plants. Tests were performed on the low alloy - 2¼Cr 1Mo V modified ferritic steel, widely selected for construction of high temperature components in petrochemical plants. The technique was shown to...

Low cycle fatigue - strain control test data for AISI 304L ar material at 300 °C and nominal strain range of 1.2 % (twenty-sixth 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 299.81 °C and nominal strain range of .6 %

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.

Registration Year

  • 2018
    185

Resource Types

  • Dataset
    185