1,802 Works

Test data for low cycle fatigue - strain control on material P91 at 550 Celsius

&
The 2010-2012 implementation plan of the European Sustainable Nuclear Industrial Initiative (ESNII), in the frame of the Sustainable Nuclear Energy Technology Platform (SNE TP), establishes a very tight time schedule for the start of construction of the European Gen IV prototypes; namely the construction of the LFR ETPP (European Technology Pilot Plant) Myrrha will start in 2014 and that of the SFR Prototype ASTRID will start in 2017. The GEN IV reactors pose new challenges...

Test data for low cycle fatigue - strain control on material P91 at 550 Celsius

&
The 2010-2012 implementation plan of the European Sustainable Nuclear Industrial Initiative (ESNII), in the frame of the Sustainable Nuclear Energy Technology Platform (SNE TP), establishes a very tight time schedule for the start of construction of the European Gen IV prototypes; namely the construction of the LFR ETPP (European Technology Pilot Plant) Myrrha will start in 2014 and that of the SFR Prototype ASTRID will start in 2017. The GEN IV reactors pose new challenges...

Small punch tensile/fracture test data for P91 material at 22 °C and a displacement rate of .005 mm/s

Bruchhausen M Lapetite J-M & Institute For Energy EC-JRC Petten
The 2010-2012 implementation plan of the European Sustainable Nuclear Industrial Initiative (ESNII), in the frame of the Sustainable Nuclear Energy Technology Platform (SNE TP), establishes a very tight time schedule for the start of construction of the European Gen IV prototypes; namely the construction of the LFR ETPP (European Technology Pilot Plant) Myrrha will start in 2014 and that of the SFR Prototype ASTRID will start in 2017. The GEN IV reactors pose new challenges...

Small punch tensile/fracture test data for P91 material at 22 °C and a displacement rate of .005 mm/s (third repeat test)

Bruchhausen M Lapetite J-M & Institute For Energy EC-JRC Petten
The 2010-2012 implementation plan of the European Sustainable Nuclear Industrial Initiative (ESNII), in the frame of the Sustainable Nuclear Energy Technology Platform (SNE TP), establishes a very tight time schedule for the start of construction of the European Gen IV prototypes; namely the construction of the LFR ETPP (European Technology Pilot Plant) Myrrha will start in 2014 and that of the SFR Prototype ASTRID will start in 2017. The GEN IV reactors pose new challenges...

Small punch tensile/fracture test data for P91 material at 22 °C and a displacement rate of .005 mm/s (repeat test)

Bruchhausen M Lapetite J-M & Institute For Energy EC-JRC Petten
The 2010-2012 implementation plan of the European Sustainable Nuclear Industrial Initiative (ESNII), in the frame of the Sustainable Nuclear Energy Technology Platform (SNE TP), establishes a very tight time schedule for the start of construction of the European Gen IV prototypes; namely the construction of the LFR ETPP (European Technology Pilot Plant) Myrrha will start in 2014 and that of the SFR Prototype ASTRID will start in 2017. The GEN IV reactors pose new challenges...

Test data for uniaxial creep on material ALLOY 800H at 800 Celsius

BA Lerch & Max Planck Institut Für Metallforschung
Data collection created at the Max Planck Institut für Metallforschung during the European COST 501 Programme on Critical Components for Advanced Steam Cycles, where Alloy 800 H (alternative designations DIN 1.4876 and X 10 NiCrAlTi 32 20) was one of several alloys examined in the context of research into advanced materials for a broad range of power engineering processes.

Test data for uniaxial creep on material ALLOY 800H at 800 Celsius

BA Lerch & Max Planck Institut Für Metallforschung
Data collection created at the Max Planck Institut für Metallforschung during the European COST 501 Programme on Critical Components for Advanced Steam Cycles, where Alloy 800 H (alternative designations DIN 1.4876 and X 10 NiCrAlTi 32 20) was one of several alloys examined in the context of research into advanced materials for a broad range of power engineering processes.

Test data for uniaxial creep on material ALLOY 800H at 800 Celsius

BA Lerch & Max Planck Institut Für Metallforschung
Data collection created at the Max Planck Institut für Metallforschung during the European COST 501 Programme on Critical Components for Advanced Steam Cycles, where Alloy 800 H (alternative designations DIN 1.4876 and X 10 NiCrAlTi 32 20) was one of several alloys examined in the context of research into advanced materials for a broad range of power engineering processes.

Test data for uniaxial creep on material ALLOY 800H at 800 Celsius

BA Lerch & Max Planck Institut Für Metallforschung
Data collection created at the Max Planck Institut für Metallforschung during the European COST 501 Programme on Critical Components for Advanced Steam Cycles, where Alloy 800 H (alternative designations DIN 1.4876 and X 10 NiCrAlTi 32 20) was one of several alloys examined in the context of research into advanced materials for a broad range of power engineering processes.

Test data for uniaxial creep on material ALLOY 800H at 750 Celsius

BA Lerch & Max Planck Institut Für Metallforschung
Data collection created at the Max Planck Institut für Metallforschung during the European COST 501 Programme on Critical Components for Advanced Steam Cycles, where Alloy 800 H (alternative designations DIN 1.4876 and X 10 NiCrAlTi 32 20) was one of several alloys examined in the context of research into advanced materials for a broad range of power engineering processes.

Test data for uniaxial creep on material ALLOY 800H at 850 Celsius

BA Lerch & Max Planck Institut Für Metallforschung
Data collection created at the Max Planck Institut für Metallforschung during the European COST 501 Programme on Critical Components for Advanced Steam Cycles, where Alloy 800 H (alternative designations DIN 1.4876 and X 10 NiCrAlTi 32 20) was one of several alloys examined in the context of research into advanced materials for a broad range of power engineering processes.

Test data for uniaxial creep on material ALLOY 800H at 800 Celsius

BA Lerch & Max Planck Institut Für Metallforschung
Data collection created at the Max Planck Institut für Metallforschung during the European COST 501 Programme on Critical Components for Advanced Steam Cycles, where Alloy 800 H (alternative designations DIN 1.4876 and X 10 NiCrAlTi 32 20) was one of several alloys examined in the context of research into advanced materials for a broad range of power engineering processes.

Test data for uniaxial creep on material ALLOY 800H at 800 Celsius

BA Lerch & Max Planck Institut Für Metallforschung
Data collection created at the Max Planck Institut für Metallforschung during the European COST 501 Programme on Critical Components for Advanced Steam Cycles, where Alloy 800 H (alternative designations DIN 1.4876 and X 10 NiCrAlTi 32 20) was one of several alloys examined in the context of research into advanced materials for a broad range of power engineering processes.

Test data for uniaxial creep on material ALLOY 800H at 800 Celsius

BA Lerch & Max Planck Institut Für Metallforschung
Data collection created at the Max Planck Institut für Metallforschung during the European COST 501 Programme on Critical Components for Advanced Steam Cycles, where Alloy 800 H (alternative designations DIN 1.4876 and X 10 NiCrAlTi 32 20) was one of several alloys examined in the context of research into advanced materials for a broad range of power engineering processes.

Test data for uniaxial creep on material ALLOY 800H at 800 Celsius

BA Lerch & Max Planck Institut Für Metallforschung
Data collection created at the Max Planck Institut für Metallforschung during the European COST 501 Programme on Critical Components for Advanced Steam Cycles, where Alloy 800 H (alternative designations DIN 1.4876 and X 10 NiCrAlTi 32 20) was one of several alloys examined in the context of research into advanced materials for a broad range of power engineering processes.

Test data for uniaxial creep on material ALLOY 800H at 800 Celsius

BA Lerch & Max Planck Institut Für Metallforschung
Data collection created at the Max Planck Institut für Metallforschung during the European COST 501 Programme on Critical Components for Advanced Steam Cycles, where Alloy 800 H (alternative designations DIN 1.4876 and X 10 NiCrAlTi 32 20) was one of several alloys examined in the context of research into advanced materials for a broad range of power engineering processes.

Test data for uniaxial creep on material IN792 ds carb at 850 Celsius

& Institute For Energy EC-JRC Petten
As a part of the overall test programme of FP5 HTR-M1 Project, JRC-IET performed a series of uni-axial creep and low-cycle fatigue (LCF) tests on the nickel based superalloy Udimet 720 material with the objective of assessing the effect of a specific HTR operating environment. Tests were performed on as-received, heavily carburized, decarburized, and thermally aged material. The heavily carburized state was achieved by exposure for 1000h at 950 Celsius in a 1.6 bar absolute...

Test data for uniaxial tensile on material IN 738 lc at 25 Celsius

HJ Martens &
In the context of the high temperature fatigue activities undertaken in the COST 50 project, Gebrüder Sulzer AG (now Sulzer Ltd) performed tests to determine the low cycle fatigue and tensile behaviour of the nickel-based superalloy IN 738 LC.

Test data for uniaxial tensile on material IN 738 lc at 451 Celsius

HJ Martens &
In the context of the high temperature fatigue activities undertaken in the COST 50 project, Gebrüder Sulzer AG (now Sulzer Ltd) performed tests to determine the low cycle fatigue and tensile behaviour of the nickel-based superalloy IN 738 LC.

Test data for low cycle fatigue - strain control on material IN 738 lc at 850 Celsius

HJ Martens &
In the context of the high temperature fatigue activities undertaken in the COST 50 project, Gebrüder Sulzer AG (now Sulzer Ltd) performed tests to determine the low cycle fatigue and tensile behaviour of the nickel-based superalloy IN 738 LC.

Small punch tensile/fracture test data for P91 material at -150 °C and a displacement rate of .005 mm/s

Lapetite J-M Bruchhausen M & Institute For Energy EC-JRC Petten
The 2010-2012 implementation plan of the European Sustainable Nuclear Industrial Initiative (ESNII), in the frame of the Sustainable Nuclear Energy Technology Platform (SNE TP), establishes a very tight time schedule for the start of construction of the European Gen IV prototypes; namely the construction of the LFR ETPP (European Technology Pilot Plant) Myrrha will start in 2014 and that of the SFR Prototype ASTRID will start in 2017. The GEN IV reactors pose new challenges...

Test data for low cycle fatigue - strain control on material AISI 316 L at 20 Celsius

E. Paffumi & Institute For Energy EC-JRC Petten
In the context of the NULIFE project, this data collection relates to a combined experimental and analytical investigation conducted on tubular components of low-carbon 316L stainless steel subjected to cyclic thermal shocks of varying intensity. To underpin the component tests, low cycle fatigue (LCF) tests, as well as tensile tests were carried out at 20°C using standard cylindrical specimens. Concerning the LCF tests, uniaxial testing of solid section specimens under cyclic strain control is used...

Test data for low cycle fatigue - strain control on material AISI 316 L at 20 Celsius

E. Paffumi & Institute For Energy EC-JRC Petten
In the context of the NULIFE project, this data collection relates to a combined experimental and analytical investigation conducted on tubular components of low-carbon 316L stainless steel subjected to cyclic thermal shocks of varying intensity. To underpin the component tests, low cycle fatigue (LCF) tests, as well as tensile tests were carried out at 20°C using standard cylindrical specimens. Concerning the LCF tests, uniaxial testing of solid section specimens under cyclic strain control is used...

Test data for low cycle fatigue - strain control on material AISI 316 L at 20 Celsius

E. Paffumi & Institute For Energy EC-JRC Petten
In the context of the NULIFE project, this data collection relates to a combined experimental and analytical investigation conducted on tubular components of low-carbon 316L stainless steel subjected to cyclic thermal shocks of varying intensity. To underpin the component tests, low cycle fatigue (LCF) tests, as well as tensile tests were carried out at 20°C using standard cylindrical specimens. Concerning the LCF tests, uniaxial testing of solid section specimens under cyclic strain control is used...

Test data for low cycle fatigue - strain control on material AISI 316 L at 20 Celsius

E. Paffumi & Institute For Energy EC-JRC Petten
In the context of the NULIFE project, this data collection relates to a combined experimental and analytical investigation conducted on tubular components of low-carbon 316L stainless steel subjected to cyclic thermal shocks of varying intensity. To underpin the component tests, low cycle fatigue (LCF) tests, as well as tensile tests were carried out at 20°C using standard cylindrical specimens. Concerning the LCF tests, uniaxial testing of solid section specimens under cyclic strain control is used...

Registration Year

  • 2014
    1,802

Resource Types

  • Dataset
    1,802