862 Works

Nanoindentation (single cycle) test data for Model Alloy (Fe-9Cr) material at 23 °C and maximum indenter force of 5.006 mN (tenth nominally repeat test)

AM Ruiz Moreno &
Data created at the European Commission JRC during the H2020 project on multiscale modeling for fusion and fission materials (M4F), funded from the Euratom research and training programme 2014-2018 under grant agreement No. 755039.

Nanoindentation (single cycle) test data for Model Alloy (Fe-9Cr) material at 23 °C and maximum indenter force of 5.007 mN (twelfth nominally repeat test)

AM Ruiz Moreno &
Data created at the European Commission JRC during the H2020 project on multiscale modeling for fusion and fission materials (M4F), funded from the Euratom research and training programme 2014-2018 under grant agreement No. 755039.

Nanoindentation (single cycle) test data for Model Alloy (Fe-9Cr) material at 23 °C and maximum indenter force of 5.005 mN (seventeenth nominally repeat test)

AM Ruiz Moreno &
Data created at the European Commission JRC during the H2020 project on multiscale modeling for fusion and fission materials (M4F), funded from the Euratom research and training programme 2014-2018 under grant agreement No. 755039.

Nanoindentation (single cycle) test data for Model Alloy (Fe-9Cr) material at 23 °C and maximum indenter force of 5.006 mN (twentieth nominally repeat test)

AM Ruiz Moreno &
Data created at the European Commission JRC during the H2020 project on multiscale modeling for fusion and fission materials (M4F), funded from the Euratom research and training programme 2014-2018 under grant agreement No. 755039.

Nanoindentation (single cycle) test data for Model Alloy (Fe-9Cr) material at 23 °C and maximum indenter force of 5.006 mN (twenty-third nominally repeat test)

AM Ruiz Moreno &
Data created at the European Commission JRC during the H2020 project on multiscale modeling for fusion and fission materials (M4F), funded from the Euratom research and training programme 2014-2018 under grant agreement No. 755039.

Nanoindentation (single cycle) test data for Model Alloy (Fe-9Cr) material at 23 °C and maximum indenter force of 5.006 mN (twenty-fourth nominally repeat test)

AM Ruiz Moreno &
Data created at the European Commission JRC during the H2020 project on multiscale modeling for fusion and fission materials (M4F), funded from the Euratom research and training programme 2014-2018 under grant agreement No. 755039.

Nanoindentation (single cycle) test data for Model Alloy (Fe-9Cr) material at 23 °C and maximum indenter force of 5.007 mN (fifteenth nominally repeat test)

AM Ruiz Moreno &
Data created at the European Commission JRC during the H2020 project on multiscale modeling for fusion and fission materials (M4F), funded from the Euratom research and training programme 2014-2018 under grant agreement No. 755039.

Nanoindentation (single cycle) test data for Model Alloy (Fe-9Cr) material at 23 °C and maximum indenter force of 5.006 mN (twenty-fifth nominally repeat test)

AM Ruiz Moreno &
Data created at the European Commission JRC during the H2020 project on multiscale modeling for fusion and fission materials (M4F), funded from the Euratom research and training programme 2014-2018 under grant agreement No. 755039.

Nanoindentation (single cycle) test data for Model Alloy (Fe-9Cr) material at 23 °C and maximum indenter force of 5.005 mN (thirtieth nominally repeat test)

AM Ruiz Moreno &
Data created at the European Commission JRC during the H2020 project on multiscale modeling for fusion and fission materials (M4F), funded from the Euratom research and training programme 2014-2018 under grant agreement No. 755039.

Nanoindentation (single cycle) test data for Model Alloy (Fe-9Cr) material at 23 °C and maximum indenter force of 5.008 mN (second nominally repeat test)

AM Ruiz Moreno &
Data created at the European Commission JRC during the H2020 project on multiscale modeling for fusion and fission materials (M4F), funded from the Euratom research and training programme 2014-2018 under grant agreement No. 755039.

Nanoindentation (single cycle) test data for Model Alloy (Fe-9Cr) material at 23 °C and maximum indenter force of 5.007 mN (twenty-first nominally repeat test)

AM Ruiz Moreno &
Data created at the European Commission JRC during the H2020 project on multiscale modeling for fusion and fission materials (M4F), funded from the Euratom research and training programme 2014-2018 under grant agreement No. 755039.

Nanoindentation (single cycle) test data for Model Alloy (Fe-9Cr) material at 23 °C and maximum indenter force of 5.005 mN (thirty-fourth nominally repeat test)

AM Ruiz Moreno &
Data created at the European Commission JRC during the H2020 project on multiscale modeling for fusion and fission materials (M4F), funded from the Euratom research and training programme 2014-2018 under grant agreement No. 755039.

Nanoindentation (single cycle) test data for Model Alloy (Fe-9Cr) material at 23 °C and maximum indenter force of 5.006 mN (forty-seventh nominally repeat test)

AM Ruiz Moreno &
Data created at the European Commission JRC during the H2020 project on multiscale modeling for fusion and fission materials (M4F), funded from the Euratom research and training programme 2014-2018 under grant agreement No. 755039.

Nanoindentation (single cycle) test data for Model Alloy (Fe-9Cr) material at 23 °C and maximum indenter force of 5.007 mN (twenty-ninth nominally repeat test)

AM Ruiz Moreno &
Data created at the European Commission JRC during the H2020 project on multiscale modeling for fusion and fission materials (M4F), funded from the Euratom research and training programme 2014-2018 under grant agreement No. 755039.

Nanoindentation (single cycle) test data for Model Alloy (Fe-9Cr) material at 23 °C and maximum indenter force of 5.009 mN (second nominally repeat test)

AM Ruiz Moreno &
Data created at the European Commission JRC during the H2020 project on multiscale modeling for fusion and fission materials (M4F), funded from the Euratom research and training programme 2014-2018 under grant agreement No. 755039.

Nanoindentation (single cycle) test data for Model Alloy (Fe-9Cr) material at 23 °C and maximum indenter force of 5.006 mN (fifty-third nominally repeat test)

AM Ruiz Moreno &
Data created at the European Commission JRC during the H2020 project on multiscale modeling for fusion and fission materials (M4F), funded from the Euratom research and training programme 2014-2018 under grant agreement No. 755039.

Nanoindentation (single cycle) test data for Model Alloy (Fe-9Cr) material at 23 °C and maximum indenter force of 10.007 mN (fifth nominally repeat test)

AM Ruiz Moreno &
Data created at the European Commission JRC during the H2020 project on multiscale modeling for fusion and fission materials (M4F), funded from the Euratom research and training programme 2014-2018 under grant agreement No. 755039.

Nanoindentation (single cycle) test data for Model Alloy (Fe-9Cr) material at 23 °C and maximum indenter force of 10.006 mN (second nominally repeat test)

AM Ruiz Moreno &
Data created at the European Commission JRC during the H2020 project on multiscale modeling for fusion and fission materials (M4F), funded from the Euratom research and training programme 2014-2018 under grant agreement No. 755039.

Nanoindentation (single cycle) test data for Model Alloy (Fe-9Cr) material at 23 °C and maximum indenter force of 10.009 mN (second nominally repeat test)

AM Ruiz Moreno &
Data created at the European Commission JRC during the H2020 project on multiscale modeling for fusion and fission materials (M4F), funded from the Euratom research and training programme 2014-2018 under grant agreement No. 755039.

Nanoindentation (single cycle) test data for Model Alloy (Fe-9Cr) material at 23 °C and maximum indenter force of 10.007 mN (seventh nominally repeat test)

AM Ruiz Moreno &
Data created at the European Commission JRC during the H2020 project on multiscale modeling for fusion and fission materials (M4F), funded from the Euratom research and training programme 2014-2018 under grant agreement No. 755039.

Nanoindentation (single cycle) test data for Model Alloy (Fe-9Cr) material at 23 °C and maximum indenter force of 10.009 mN (fourth nominally repeat test)

AM Ruiz Moreno &
Data created at the European Commission JRC during the H2020 project on multiscale modeling for fusion and fission materials (M4F), funded from the Euratom research and training programme 2014-2018 under grant agreement No. 755039.

Nanoindentation (single cycle) test data for Model Alloy (Fe-9Cr) material at 23 °C and maximum indenter force of 10.007 mN (eleventh nominally repeat test)

AM Ruiz Moreno &
Data created at the European Commission JRC during the H2020 project on multiscale modeling for fusion and fission materials (M4F), funded from the Euratom research and training programme 2014-2018 under grant agreement No. 755039.

Nanoindentation (single cycle) test data for Model Alloy (Fe-9Cr) material at 23 °C and maximum indenter force of 10.008 mN (first nominally repeat test)

AM Ruiz Moreno &
Data created at the European Commission JRC during the H2020 project on multiscale modeling for fusion and fission materials (M4F), funded from the Euratom research and training programme 2014-2018 under grant agreement No. 755039.

Nanoindentation (single cycle) test data for Model Alloy (Fe-9Cr) material at 23 °C and maximum indenter force of 10.009 mN (fifth nominally repeat test)

AM Ruiz Moreno &
Data created at the European Commission JRC during the H2020 project on multiscale modeling for fusion and fission materials (M4F), funded from the Euratom research and training programme 2014-2018 under grant agreement No. 755039.

Nanoindentation (single cycle) test data for Model Alloy (Fe-9Cr) material at 23 °C and maximum indenter force of 10.007 mN (twelfth nominally repeat test)

AM Ruiz Moreno &
Data created at the European Commission JRC during the H2020 project on multiscale modeling for fusion and fission materials (M4F), funded from the Euratom research and training programme 2014-2018 under grant agreement No. 755039.

Registration Year

  • 2020
    862

Resource Types

  • Dataset
    862