7,498 Works

Low cycle fatigue - strain control test data for P91 material at 550 °C

&
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...

Uniaxial creep test data for P91 material at 600 °C and a stress of 135 MPa (repeat test)

& Institute For Energy EC-JRC Petten
The data relate to a thesis concerned with demonstrating the suitability of Small Punch (SP) testing for lifetime prediction of metallic materials operating at high temperatures. The lack of standardisation of this technique and doubts about the correlation of the data with that obtained from conventional creep tests, supports the need to exploit the recently launched Code of Practice for Small Punch Testing (CEN/WS 21). The present work is specifically concerned with investigating the creep...

Small punch tensile/fracture test data for Gr. 91 material at -130 °C and a displacement rate of .5 mm/s

&
In the framework of its institutional project on Gen IV nuclear reactors, the JRC-IET performs pre-normative materials qualification research within the work package PreMaQ. The activities focus on evaluation methods like ultrasonic fatigue, neutron diffraction, thermoelectric power measurements, x-ray tomography, small punch creep and fracture tests, and nano-indentation with the aim to establish or prepare international standards. The current data set belongs to a small punch tensile/fracture mechanics test on the ferritic/martensitic steel Grade 91.

Small punch creep test data for P91 haz_fg material at 600 °C and a load of 217 N (repeat test)

& Institute For Energy EC-JRC Petten
The data relate to a thesis concerned with demonstrating the suitability of Small Punch (SP) testing for lifetime prediction of metallic materials operating at high temperatures. The lack of standardisation of this technique and doubts about the correlation of the data with that obtained from conventional creep tests, supports the need to exploit the recently launched Code of Practice for Small Punch Testing (CEN/WS 21). The present work is specifically concerned with investigating the creep...

Uniaxial creep test data for P91 material at 600 °C and a stress of 135 MPa

& Institute For Energy EC-JRC Petten
The data relate to a thesis concerned with demonstrating the suitability of Small Punch (SP) testing for lifetime prediction of metallic materials operating at high temperatures. The lack of standardisation of this technique and doubts about the correlation of the data with that obtained from conventional creep tests, supports the need to exploit the recently launched Code of Practice for Small Punch Testing (CEN/WS 21). The present work is specifically concerned with investigating the creep...

Small punch creep test data for P91 material at 600 °C and a load of 240 N (third repeat test)

& Institute For Energy EC-JRC Petten
The data relate to a thesis concerned with demonstrating the suitability of Small Punch (SP) testing for lifetime prediction of metallic materials operating at high temperatures. The lack of standardisation of this technique and doubts about the correlation of the data with that obtained from conventional creep tests, supports the need to exploit the recently launched Code of Practice for Small Punch Testing (CEN/WS 21). The present work is specifically concerned with investigating the creep...

Low cycle fatigue - strain control test data for IN 718 material at 550 °C (third 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...

Small punch tensile/fracture test data for P91 wm material at -158 °C and a displacement rate of .003 mm/s

& Institute For Energy EC-JRC Petten
The data relate to a thesis concerned with demonstrating the suitability of Small Punch (SP) testing for lifetime prediction of metallic materials operating at high temperatures. The lack of standardisation of this technique and doubts about the correlation of the data with that obtained from conventional creep tests, supports the need to exploit the recently launched Code of Practice for Small Punch Testing (CEN/WS 21). The present work is specifically concerned with investigating the creep...

Low cycle fatigue - strain control test data for AISI 316 L material at 550 °C (eighth 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...

Small punch tensile/fracture test data for Gr. 91 material at 23 °C and a displacement rate of .005 mm/s

&
In the framework of its institutional project on Gen IV nuclear reactors, the JRC-IET performs pre-normative materials qualification research within the work package PreMaQ. The activities focus on evaluation methods like ultrasonic fatigue, neutron diffraction, thermoelectric power measurements, x-ray tomography, small punch creep and fracture tests, and nano-indentation with the aim to establish or prepare international standards. The current data set belongs to a small punch tensile/fracture mechanics test on the ferritic/martensitic steel Grade 91.

Low cycle fatigue - strain control test data for AISI 316 L ar material at 600 °C (sixth 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 AISI 316 L ar material at 600 °C (eighth 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...

Small punch creep test data for P91 material at 600 °C and a load of 280 N (second repeat test)

& Institute For Energy EC-JRC Petten
The data relate to a thesis concerned with demonstrating the suitability of Small Punch (SP) testing for lifetime prediction of metallic materials operating at high temperatures. The lack of standardisation of this technique and doubts about the correlation of the data with that obtained from conventional creep tests, supports the need to exploit the recently launched Code of Practice for Small Punch Testing (CEN/WS 21). The present work is specifically concerned with investigating the creep...

Small punch tensile/fracture test data for P91 material at 22 °C and a displacement rate of .005 mm/s (second 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 wm material at -192 °C and a displacement rate of .003 mm/s

& Institute For Energy EC-JRC Petten
The data relate to a thesis concerned with demonstrating the suitability of Small Punch (SP) testing for lifetime prediction of metallic materials operating at high temperatures. The lack of standardisation of this technique and doubts about the correlation of the data with that obtained from conventional creep tests, supports the need to exploit the recently launched Code of Practice for Small Punch Testing (CEN/WS 21). The present work is specifically concerned with investigating the creep...

Small punch tensile/fracture test data for Gr. 91 material at -60 °C and a displacement rate of .5 mm/s

&
In the framework of its institutional project on Gen IV nuclear reactors, the JRC-IET performs pre-normative materials qualification research within the work package PreMaQ. The activities focus on evaluation methods like ultrasonic fatigue, neutron diffraction, thermoelectric power measurements, x-ray tomography, small punch creep and fracture tests, and nano-indentation with the aim to establish or prepare international standards. The current data set belongs to a small punch tensile/fracture mechanics test on the ferritic/martensitic steel Grade 91.

Small punch tensile/fracture test data for P91 wm material at -100 °C and a displacement rate of .003 mm/s

& Institute For Energy EC-JRC Petten
The data relate to a thesis concerned with demonstrating the suitability of Small Punch (SP) testing for lifetime prediction of metallic materials operating at high temperatures. The lack of standardisation of this technique and doubts about the correlation of the data with that obtained from conventional creep tests, supports the need to exploit the recently launched Code of Practice for Small Punch Testing (CEN/WS 21). The present work is specifically concerned with investigating the creep...

Uniaxial creep test data for P91 material at 600 °C and a stress of 155 MPa

& Institute For Energy EC-JRC Petten
The data relate to a thesis concerned with demonstrating the suitability of Small Punch (SP) testing for lifetime prediction of metallic materials operating at high temperatures. The lack of standardisation of this technique and doubts about the correlation of the data with that obtained from conventional creep tests, supports the need to exploit the recently launched Code of Practice for Small Punch Testing (CEN/WS 21). The present work is specifically concerned with investigating the creep...

Test data for uniaxial tensile on material INVAR sa at 21 Celsius

Burkhard Fischer Matthias Bruchhausen & Institute For Energy EC-JRC Petten
The FP7 project "In Space Propulsion 1" was set up to improve the fundamental knowledge and the techniques which are necessary to allow Europe to implement new ambitious space programs involving cryogenic propulsion. It concentrates on liquid oxygen, liquid hydrogen, and liquid methane propellants, and the anticipated progress will address - LOX methane combustion - heat and propellant management - materials tribology, compatibility, and hydrogen embrittlement. The data included here were generated in the part...

Test data for high cycle fatigue on material IN 718 at 20 Celsius

Burkhard Fischer Matthias Bruchhausen & Institute For Energy EC-JRC Petten
The FP7 project "In Space Propulsion 1" was set up to improve the fundamental knowledge and the techniques which are necessary to allow Europe to implement new ambitious space programs involving cryogenic propulsion. It concentrates on liquid oxygen, liquid hydrogen, and liquid methane propellants, and the anticipated progress will address - LOX methane combustion - heat and propellant management - materials tribology, compatibility, and hydrogen embrittlement. The data included here were generated in the part...

Test data for high cycle fatigue on material IN 718 at 20 Celsius

Burkhard Fischer Matthias Bruchhausen & Institute For Energy EC-JRC Petten
The FP7 project "In Space Propulsion 1" was set up to improve the fundamental knowledge and the techniques which are necessary to allow Europe to implement new ambitious space programs involving cryogenic propulsion. It concentrates on liquid oxygen, liquid hydrogen, and liquid methane propellants, and the anticipated progress will address - LOX methane combustion - heat and propellant management - materials tribology, compatibility, and hydrogen embrittlement. The data included here were generated in the part...

Test data for uniaxial tensile on material INVAR sa at 21 Celsius

Burkhard Fischer Matthias Bruchhausen & Institute For Energy EC-JRC Petten
The FP7 project "In Space Propulsion 1" was set up to improve the fundamental knowledge and the techniques which are necessary to allow Europe to implement new ambitious space programs involving cryogenic propulsion. It concentrates on liquid oxygen, liquid hydrogen, and liquid methane propellants, and the anticipated progress will address - LOX methane combustion - heat and propellant management - materials tribology, compatibility, and hydrogen embrittlement. The data included here were generated in the part...

Test data for uniaxial tensile on material INVAR sa at 21 Celsius

Burkhard Fischer Matthias Bruchhausen & Institute For Energy EC-JRC Petten
The FP7 project "In Space Propulsion 1" was set up to improve the fundamental knowledge and the techniques which are necessary to allow Europe to implement new ambitious space programs involving cryogenic propulsion. It concentrates on liquid oxygen, liquid hydrogen, and liquid methane propellants, and the anticipated progress will address - LOX methane combustion - heat and propellant management - materials tribology, compatibility, and hydrogen embrittlement. The data included here were generated in the part...

Test data for high cycle fatigue on material IN 718 at 20 Celsius

Burkhard Fischer Matthias Bruchhausen & Institute For Energy EC-JRC Petten
The FP7 project "In Space Propulsion 1" was set up to improve the fundamental knowledge and the techniques which are necessary to allow Europe to implement new ambitious space programs involving cryogenic propulsion. It concentrates on liquid oxygen, liquid hydrogen, and liquid methane propellants, and the anticipated progress will address - LOX methane combustion - heat and propellant management - materials tribology, compatibility, and hydrogen embrittlement. The data included here were generated in the part...

Test data for uniaxial tensile on material INVAR sa at 21 Celsius

Burkhard Fischer Matthias Bruchhausen & Institute For Energy EC-JRC Petten
The FP7 project "In Space Propulsion 1" was set up to improve the fundamental knowledge and the techniques which are necessary to allow Europe to implement new ambitious space programs involving cryogenic propulsion. It concentrates on liquid oxygen, liquid hydrogen, and liquid methane propellants, and the anticipated progress will address - LOX methane combustion - heat and propellant management - materials tribology, compatibility, and hydrogen embrittlement. The data included here were generated in the part...

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