492 Works

Thermo-mechanical fatigue test data for CM186 coat material for a temperature range of 350 to 950 °C and a mechanical strain range of 1 %

FJ De Haan & Institute For Energy EC-JRC Petten
A collection of thermo-mechanical fatigue test data for CM186 Ni-base alloy. The tests were performed at the JRC in the context of the EPG-GT (Efficient Power Generation - Gas Turbines) project. For more information, see http://publications.jrc.ec.europa.eu/repository/handle/JRC20364.

Thermo-mechanical fatigue test data for MAR-M-509 material for a temperature range of 950 to 130 °C and a mechanical strain range of .85 %

B Baufeld & Institute For Energy EC-JRC Petten
A collection of thermo-mechanical fatigue test data for MAR-M 509 Co-based superalloy. The tests were performed at the JRC in the context of the EPG-GT (Efficient Power Generation - Gas Turbines) project. For more information, see http://doi.org/10.1016/S0921-5093(01)01208-4.

Creep crack growth test data for 10 CrMo 9 10 material at 600 °C and a load of 3040 N

& Institute For Energy EC-JRC Petten
JRC data collection consisting of creep crack growth results from tests performed on low-alloy steels in the scope of COST 501/II/WP5 C. With a COST 501 Round II Work Package 5 concerned with the prediction of residual lifetime under simulated service loads, the WP5 C sub-package was focussed on steam pipe steels.

Creep crack growth test data for 10 CrMo 9 10 material at 600 °C and a load of 3200 N

& Institute For Energy EC-JRC Petten
JRC data collection consisting of creep crack growth results from tests performed on low-alloy steels in the scope of COST 501/II/WP5 C. With a COST 501 Round II Work Package 5 concerned with the prediction of residual lifetime under simulated service loads, the WP5 C sub-package was focussed on steam pipe steels.

Creep crack growth test data for 10 CrMo 9 10 material at 600 °C and a load of 3500 N

& Institute For Energy EC-JRC Petten
JRC data collection consisting of creep crack growth results from tests performed on low-alloy steels in the scope of COST 501/II/WP5 C. With a COST 501 Round II Work Package 5 concerned with the prediction of residual lifetime under simulated service loads, the WP5 C sub-package was focussed on steam pipe steels.

Creep crack growth test data for 10 CrMo 9 10 material at 600 °C and a load of 3100 N

& Institute For Energy EC-JRC Petten
JRC data collection consisting of creep crack growth results from tests performed on low-alloy steels in the scope of COST 501/II/WP5 C. With a COST 501 Round II Work Package 5 concerned with the prediction of residual lifetime under simulated service loads, the WP5 C sub-package was focussed on steam pipe steels.

Multiaxial creep test data for 10 CrMo 9 10 material at 550 °C (second repeat test)

& Institute For Energy EC-JRC Petten
JRC data collection consisting of multi-axial creep, uni-axial creep, and uni-axial tensile results from tests performed on low-alloy steels in the scope of COST 501/II/WP5 C. With the COST 501 Round II Work Package 5 concerned with the prediction of residual lifetime under simulated service loads, the WP5 C sub-package was focused on steam pipe steels.

Multiaxial creep test data for 10 CrMo 9 10 material at 600 °C (repeat test)

& Institute For Energy EC-JRC Petten
JRC data collection consisting of multi-axial creep, uni-axial creep, and uni-axial tensile results from tests performed on low-alloy steels in the scope of COST 501/II/WP5 C. With the COST 501 Round II Work Package 5 concerned with the prediction of residual lifetime under simulated service loads, the WP5 C sub-package was focused on steam pipe steels.

Uniaxial tensile test data for AISI 316L mod material at 340 °C (fifth nominally repeat test)

R Novotny, T Timke &
Data collection created by the JRC in the scope of the NUGENIA MICRIN project on the development of an accelerated test method for stress corrosion cracking initiation. The work was concerned with SSRT/SCCI screening tests on tapered tensile specimens (both flat and cylindrical) to determine the SCCI threshold stress. The material investigated was Duplex 316 SS (with 4% Si).

Uniaxial tensile test data for AISI 316L mod material at 340 °C (fifth nominally repeat test)

R Novotny, T Timke &
Data collection created by the JRC in the scope of the NUGENIA MICRIN project on the development of an accelerated test method for stress corrosion cracking initiation. The work was concerned with SSRT/SCCI screening tests on tapered tensile specimens (both flat and cylindrical) to determine the SCCI threshold stress. The material investigated was Duplex 316 SS (with 4% Si).

Uniaxial tensile test data for AISI 316L mod material at 340 °C (fifth nominally repeat test)

R Novotny, T Timke &
Data collection created by the JRC in the scope of the NUGENIA MICRIN project on the development of an accelerated test method for stress corrosion cracking initiation. The work was concerned with SSRT/SCCI screening tests on tapered tensile specimens (both flat and cylindrical) to determine the SCCI threshold stress. The material investigated was Duplex 316 SS (with 4% Si).

Uniaxial tensile test data for 10 CrMo 9 10 material at 550 °C (second repeat test)

M Steen &
Uniaxial tensile test data for 10 CrMo 9 10 low alloy steel created at Laboratory Soete - State University Ghent in the context of COST 505 project B2 on remanent life determination of steam pipe and turbine materials.

Uniaxial tensile test data for 10 CrMo 9 10 material at 625 °C (second repeat test)

M Steen &
Uniaxial tensile test data for 10 CrMo 9 10 low alloy steel created at Laboratory Soete - State University Ghent in the context of COST 505 project B2 on remanent life determination of steam pipe and turbine materials.

Uniaxial tensile test data for 10 CrMo 9 10 se material at 625 °C (second repeat test)

M Steen &
Uniaxial tensile test data for 10 CrMo 9 10 low alloy steel created at Laboratory Soete - State University Ghent in the context of COST 505 project B2 on remanent life determination of steam pipe and turbine materials.

Small punch creep test data for P92 material at 600 °C and a load of 525 N

S Jeffs &
Content area for Swansea University data created in the scope of the small punch test standardization project.

Small punch creep test data for P92 material at 600 °C and a load of 500 N

S Jeffs &
Content area for Swansea University data created in the scope of the small punch test standardization project.

Small punch creep test data for P92 material at 600 °C and a load of 475 N

S Jeffs &
Content area for Swansea University data created in the scope of the small punch test standardization project.

Small punch creep test data for P92 material at 625 °C and a load of 450 N

S Jeffs &
Content area for Swansea University data created in the scope of the small punch test standardization project.

Small punch creep test data for P92 material at 625 °C and a load of 375 N

S Jeffs &
Content area for Swansea University data created in the scope of the small punch test standardization project.

Small punch creep test data for P92 material at 650 °C and a load of 375 N

S Jeffs &
Content area for Swansea University data created in the scope of the small punch test standardization project.

Small punch creep test data for P92 material at 650 °C and a load of 275 N

S Jeffs &
Content area for Swansea University data created in the scope of the small punch test standardization project.

Small punch tensile/fracture test data for P92 material at 23.2 °C and a displacement rate of .00833 mm/s (repeat test)

S Jeffs &
Content area for Swansea University data created in the scope of the small punch test standardization project.

Small punch tensile/fracture test data for P92 material at 22.7 °C and a displacement rate of .00833 mm/s

S Jeffs &
Content area for Swansea University data created in the scope of the small punch test standardization project.

Small punch tensile/fracture test data for MA 956 material at 21.8 °C and a displacement rate of .00833 mm/s

&
Small Punch Test (SPT) standardization project. SPT results for MA956 material.

Catalog of JRC Open Access uniaxial tensile and impact test data created during the NESC IV project

T Austin &
The Network for Evaluating Structural Components (NESC) coordinated extensive materials testing and fracture analyses performed by a group of twenty European organizations. The NESC-IV project addressed the transferability of fracture toughness data from laboratory specimens to applications that assess the integrity of reactor pressure vessels subjected to upset and normal loading transients. This catalog consists of JRC Open Access uniaxial tensile and impact test data created during the NESC IV project.

Registration Year

  • 2017
    492

Resource Types

  • Dataset
    492