1,802 Works

Low cycle fatigue - strain control test data for IN 718 material at 550 °C (fifth repeat test)

& Institute For Energy EC-JRC Petten
In May 1985 a European programme on intercomparison of low cycle fatigue (LCF) testing was started under the auspices of the EEC Community Bureau of Reference (BCR). Subsequently, as a result of the Versailles Project on Advanced Materials and Standards (VAMAS), a wider international participation was sought. The objective of the programme was to establish a set of high temperature LCF data representative of accepted testing practice and, subsequently, to identify the significant aspects of...

Test data for uniaxial tensile on material MC2 sc at 600 Celsius

& Institute For Energy EC-JRC Petten
In the context of the Brite-EuRam Bi-Metal project, mechanical characterization was undertaken of the joint material combinations MC2/U720FG and U720CG/U720FG. The mechanical testing programme consisted of tests performed on MC2/U720FG and U720CG/U720CG joint samples as well as the bulk materials MC2, U720FG and U720CG. Since MC2 is single crystalline and different in composition to the U720 material, the testing programme was undertaken to establish whether differences existed between the two material combinations as far as...

Test data for uniaxial tensile on material MC2 sc at 600 Celsius

& Institute For Energy EC-JRC Petten
In the context of the Brite-EuRam Bi-Metal project, mechanical characterization was undertaken of the joint material combinations MC2/U720FG and U720CG/U720FG. The mechanical testing programme consisted of tests performed on MC2/U720FG and U720CG/U720CG joint samples as well as the bulk materials MC2, U720FG and U720CG. Since MC2 is single crystalline and different in composition to the U720 material, the testing programme was undertaken to establish whether differences existed between the two material combinations as far as...

Test data for uniaxial tensile on material MC2 sc at 600 Celsius

& Institute For Energy EC-JRC Petten
In the context of the Brite-EuRam Bi-Metal project, mechanical characterization was undertaken of the joint material combinations MC2/U720FG and U720CG/U720FG. The mechanical testing programme consisted of tests performed on MC2/U720FG and U720CG/U720CG joint samples as well as the bulk materials MC2, U720FG and U720CG. Since MC2 is single crystalline and different in composition to the U720 material, the testing programme was undertaken to establish whether differences existed between the two material combinations as far as...

Test data for uniaxial tensile on material MC2 sc at 700 Celsius

& Institute For Energy EC-JRC Petten
In the context of the Brite-EuRam Bi-Metal project, mechanical characterization was undertaken of the joint material combinations MC2/U720FG and U720CG/U720FG. The mechanical testing programme consisted of tests performed on MC2/U720FG and U720CG/U720CG joint samples as well as the bulk materials MC2, U720FG and U720CG. Since MC2 is single crystalline and different in composition to the U720 material, the testing programme was undertaken to establish whether differences existed between the two material combinations as far as...

Test data for uniaxial tensile on material MC2 sc / U720 hip - dj at 700 Celsius

& Institute For Energy EC-JRC Petten
In the context of the Brite-EuRam Bi-Metal project, mechanical characterization was undertaken of the joint material combinations MC2/U720FG and U720CG/U720FG. The mechanical testing programme consisted of tests performed on MC2/U720FG and U720CG/U720CG joint samples as well as the bulk materials MC2, U720FG and U720CG. Since MC2 is single crystalline and different in composition to the U720 material, the testing programme was undertaken to establish whether differences existed between the two material combinations as far as...

Test data for uniaxial tensile on material MC2 sc / U720 hip - dj at 500 Celsius

& Institute For Energy EC-JRC Petten
In the context of the Brite-EuRam Bi-Metal project, mechanical characterization was undertaken of the joint material combinations MC2/U720FG and U720CG/U720FG. The mechanical testing programme consisted of tests performed on MC2/U720FG and U720CG/U720CG joint samples as well as the bulk materials MC2, U720FG and U720CG. Since MC2 is single crystalline and different in composition to the U720 material, the testing programme was undertaken to establish whether differences existed between the two material combinations as far as...

Test data for uniaxial tensile on material MC2 sc / U720 hip - dj at 500 Celsius

& Institute For Energy EC-JRC Petten
In the context of the Brite-EuRam Bi-Metal project, mechanical characterization was undertaken of the joint material combinations MC2/U720FG and U720CG/U720FG. The mechanical testing programme consisted of tests performed on MC2/U720FG and U720CG/U720CG joint samples as well as the bulk materials MC2, U720FG and U720CG. Since MC2 is single crystalline and different in composition to the U720 material, the testing programme was undertaken to establish whether differences existed between the two material combinations as far as...

Test data for uniaxial tensile on material MC2 sc / U720 hip - dj at 20 Celsius

& Institute For Energy EC-JRC Petten
In the context of the Brite-EuRam Bi-Metal project, mechanical characterization was undertaken of the joint material combinations MC2/U720FG and U720CG/U720FG. The mechanical testing programme consisted of tests performed on MC2/U720FG and U720CG/U720CG joint samples as well as the bulk materials MC2, U720FG and U720CG. Since MC2 is single crystalline and different in composition to the U720 material, the testing programme was undertaken to establish whether differences existed between the two material combinations as far as...

Test data for uniaxial tensile on material MC2 sc / U720 hip - dj at 700 Celsius

& Institute For Energy EC-JRC Petten
In the context of the Brite-EuRam Bi-Metal project, mechanical characterization was undertaken of the joint material combinations MC2/U720FG and U720CG/U720FG. The mechanical testing programme consisted of tests performed on MC2/U720FG and U720CG/U720CG joint samples as well as the bulk materials MC2, U720FG and U720CG. Since MC2 is single crystalline and different in composition to the U720 material, the testing programme was undertaken to establish whether differences existed between the two material combinations as far as...

Test data for uniaxial tensile on material MC2 sc / U720 hip - dj at 700 Celsius

& Institute For Energy EC-JRC Petten
In the context of the Brite-EuRam Bi-Metal project, mechanical characterization was undertaken of the joint material combinations MC2/U720FG and U720CG/U720FG. The mechanical testing programme consisted of tests performed on MC2/U720FG and U720CG/U720CG joint samples as well as the bulk materials MC2, U720FG and U720CG. Since MC2 is single crystalline and different in composition to the U720 material, the testing programme was undertaken to establish whether differences existed between the two material combinations as far as...

Test data for uniaxial tensile on material P91 ar at 425 Celsius

Frits De Haan & 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 small punch fracture on material P91 ar at 22 Celsius and a displacement rate of .5 mm/s (second repeat test)

Matthias Bruchhausen Jean-Marc Lapetite & 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 small punch fracture on material P91 ar at 22 Celsius and a displacement rate of .5 mm/s (second repeat test)

Matthias Bruchhausen Jean-Marc Lapetite & 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 small punch fracture on material P91 ar at 22 Celsius and a displacement rate of .0005 mm/s (third repeat test)

Matthias Bruchhausen Jean-Marc Lapetite & 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 P91 ar at 600 Celsius

Frits De Haan & 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 P91 at 550 Celsius

Nicola Bettocchi &
The objective is to predict the effects of the interaction between Creep-Fatigue and Low Cycle Fatigue. The strategy is to mix fatigue cycles with determined strain amplitude and hold times of different durations.

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

Nicola Bettocchi &
The objective is to predict the effects of the interaction between Creep-Fatigue and Low Cycle Fatigue. The strategy is to mix fatigue cycles with determined strain amplitude and hold times of different durations.

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

Nicola Bettocchi &
The objective is to predict the effects of the interaction between Creep-Fatigue and Low Cycle Fatigue. The strategy is to mix fatigue cycles with determined strain amplitude and hold times of different durations.

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

Nicola Bettocchi &
The objective is to predict the effects of the interaction between Creep-Fatigue and Low Cycle Fatigue. The strategy is to mix fatigue cycles with determined strain amplitude and hold times of different durations.

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

Nicola Bettocchi &
The objective is to predict the effects of the interaction between Creep-Fatigue and Low Cycle Fatigue. The strategy is to mix fatigue cycles with determined strain amplitude and hold times of different durations.

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

Nicola Bettocchi &
The objective is to predict the effects of the interaction between Creep-Fatigue and Low Cycle Fatigue. The strategy is to mix fatigue cycles with determined strain amplitude and hold times of different durations.

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

Nicola Bettocchi &
The objective is to predict the effects of the interaction between Creep-Fatigue and Low Cycle Fatigue. The strategy is to mix fatigue cycles with determined strain amplitude and hold times of different durations.

Low cycle fatigue - strain control test data for AISI 316 L ar material at 600 °C (second repeat test)

&
The data set contains strain controlled low cycle fatigue data with or without hold periods for austenitic stainless steel 316L and ferritic-martensitic steel P91. The total strain range for tests is from 0.5% to 1.0% and the temperature range is from 823K to 873K. The hold period length is from 0 to 1800 sec. For 316L the hold period is applied both in tension and compression for all tests, whereas for P91 data set includes...

Low cycle fatigue - strain control test data for P91 material at 600 °C (third repeat test)

&
The data set contains strain controlled low cycle fatigue data with or without hold periods for austenitic stainless steel 316L and ferritic-martensitic steel P91. The total strain range for tests is from 0.5% to 1.0% and the temperature range is from 823K to 873K. The hold period length is from 0 to 1800 sec. For 316L the hold period is applied both in tension and compression for all tests, whereas for P91 data set includes...

Registration Year

  • 2014
    1,802

Resource Types

  • Dataset
    1,802