3,058 Works

Test data for creep crack growth on material INCONEL 617 at 800 Celsius and a load of 8000 N

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The Alloy 617 creep rupture data were determined for the high temperature reactor projects (the direct cycle helium turbine project, the nuclear process heat project and the district heating project) of the Federal Republic of Germany and the State of North Rhine Westphalia, the aim being to qualify the alloy for service at temperatures up to 950°C. Alloy 617 was the prime candidate alloy for construction of the He-He intermediate heat exchanger and hot gas...

Test data for creep crack growth on material INCONEL 617 at 800 Celsius and a load of 1095 N

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The Alloy 617 creep rupture data were determined for the high temperature reactor projects (the direct cycle helium turbine project, the nuclear process heat project and the district heating project) of the Federal Republic of Germany and the State of North Rhine Westphalia, the aim being to qualify the alloy for service at temperatures up to 950°C. Alloy 617 was the prime candidate alloy for construction of the He-He intermediate heat exchanger and hot gas...

Test data for low cycle fatigue - strain control on material INCONEL 617 at 750 Celsius

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The Alloy 617 creep rupture data were determined for the high temperature reactor projects (the direct cycle helium turbine project, the nuclear process heat project and the district heating project) of the Federal Republic of Germany and the State of North Rhine Westphalia, the aim being to qualify the alloy for service at temperatures up to 950°C. Alloy 617 was the prime candidate alloy for construction of the He-He intermediate heat exchanger and hot gas...

Test data for low cycle fatigue - strain control on material INCONEL 617 at 750 Celsius

&
The Alloy 617 creep rupture data were determined for the high temperature reactor projects (the direct cycle helium turbine project, the nuclear process heat project and the district heating project) of the Federal Republic of Germany and the State of North Rhine Westphalia, the aim being to qualify the alloy for service at temperatures up to 950°C. Alloy 617 was the prime candidate alloy for construction of the He-He intermediate heat exchanger and hot gas...

Test data for low cycle fatigue - strain control on material INCONEL 617 at 700 Celsius

&
The Alloy 617 creep rupture data were determined for the high temperature reactor projects (the direct cycle helium turbine project, the nuclear process heat project and the district heating project) of the Federal Republic of Germany and the State of North Rhine Westphalia, the aim being to qualify the alloy for service at temperatures up to 950°C. Alloy 617 was the prime candidate alloy for construction of the He-He intermediate heat exchanger and hot gas...

Test data for uniaxial creep on material INCONEL 617 - sj at 850 Celsius and a stress of 59.76 MPa

&
The Alloy 617 creep rupture data were determined for the high temperature reactor projects (the direct cycle helium turbine project, the nuclear process heat project and the district heating project) of the Federal Republic of Germany and the State of North Rhine Westphalia, the aim being to qualify the alloy for service at temperatures up to 950°C. Alloy 617 was the prime candidate alloy for construction of the He-He intermediate heat exchanger and hot gas...

Test data for uniaxial creep on material INCONEL 617 - sj at 900 Celsius and a stress of 15.09 MPa

&
The Alloy 617 creep rupture data were determined for the high temperature reactor projects (the direct cycle helium turbine project, the nuclear process heat project and the district heating project) of the Federal Republic of Germany and the State of North Rhine Westphalia, the aim being to qualify the alloy for service at temperatures up to 950°C. Alloy 617 was the prime candidate alloy for construction of the He-He intermediate heat exchanger and hot gas...

Test data for uniaxial creep on material INCONEL 617 - sj at 900 Celsius and a stress of 17.31 MPa

&
The Alloy 617 creep rupture data were determined for the high temperature reactor projects (the direct cycle helium turbine project, the nuclear process heat project and the district heating project) of the Federal Republic of Germany and the State of North Rhine Westphalia, the aim being to qualify the alloy for service at temperatures up to 950°C. Alloy 617 was the prime candidate alloy for construction of the He-He intermediate heat exchanger and hot gas...

Test data for uniaxial tensile on material IN 738 lc at 20 Celsius

GM McColvin & Henry Wiggin
Data created at Henry Wiggin (now Special Metals Wiggin) in the context of a COST 50 project to investigate the high cycle fatigue behaviour of Nimocast 739 and 738LC nickel base alloys, during which high cycle fatigue, creep, and tensile tests were performed.

Test data for uniaxial tensile on material IN 738 lc at 20 Celsius

GM McColvin & Henry Wiggin
Data created at Henry Wiggin (now Special Metals Wiggin) in the context of a COST 50 project to investigate the high cycle fatigue behaviour of Nimocast 739 and 738LC nickel base alloys, during which high cycle fatigue, creep, and tensile tests were performed.

Test data for uniaxial tensile on material IN 738 lc at 650 Celsius

GM McColvin & Henry Wiggin
Data created at Henry Wiggin (now Special Metals Wiggin) in the context of a COST 50 project to investigate the high cycle fatigue behaviour of Nimocast 739 and 738LC nickel base alloys, during which high cycle fatigue, creep, and tensile tests were performed.

Test data for high cycle fatigue on material IN 738 lc at 650 Celsius

GM McColvin & Henry Wiggin
Data created at Henry Wiggin (now Special Metals Wiggin) in the context of a COST 50 project to investigate the high cycle fatigue behaviour of Nimocast 739 and 738LC nickel base alloys, during which high cycle fatigue, creep, and tensile tests were performed.

Test data for high cycle fatigue on material IN 738 lc at 650 Celsius

GM McColvin & Henry Wiggin
Data created at Henry Wiggin (now Special Metals Wiggin) in the context of a COST 50 project to investigate the high cycle fatigue behaviour of Nimocast 739 and 738LC nickel base alloys, during which high cycle fatigue, creep, and tensile tests were performed.

Test data for high cycle fatigue on material IN 738 lc at 650 Celsius

GM McColvin & Henry Wiggin
Data created at Henry Wiggin (now Special Metals Wiggin) in the context of a COST 50 project to investigate the high cycle fatigue behaviour of Nimocast 739 and 738LC nickel base alloys, during which high cycle fatigue, creep, and tensile tests were performed.

Test data for high cycle fatigue on material IN 738 lc at 650 Celsius

GM McColvin & Henry Wiggin
Data created at Henry Wiggin (now Special Metals Wiggin) in the context of a COST 50 project to investigate the high cycle fatigue behaviour of Nimocast 739 and 738LC nickel base alloys, during which high cycle fatigue, creep, and tensile tests were performed.

Test data for high cycle fatigue on material IN 738 lc at 650 Celsius

GM McColvin & Henry Wiggin
Data created at Henry Wiggin (now Special Metals Wiggin) in the context of a COST 50 project to investigate the high cycle fatigue behaviour of Nimocast 739 and 738LC nickel base alloys, during which high cycle fatigue, creep, and tensile tests were performed.

Test data for high cycle fatigue on material IN 738 lc at 650 Celsius

GM McColvin & Henry Wiggin
Data created at Henry Wiggin (now Special Metals Wiggin) in the context of a COST 50 project to investigate the high cycle fatigue behaviour of Nimocast 739 and 738LC nickel base alloys, during which high cycle fatigue, creep, and tensile tests were performed.

Test data for high cycle fatigue on material IN 738 lc at 650 Celsius

GM McColvin & Henry Wiggin
Data created at Henry Wiggin (now Special Metals Wiggin) in the context of a COST 50 project to investigate the high cycle fatigue behaviour of Nimocast 739 and 738LC nickel base alloys, during which high cycle fatigue, creep, and tensile tests were performed.

Test data for high cycle fatigue on material IN 738 lc at 650 Celsius

GM McColvin & Henry Wiggin
Data created at Henry Wiggin (now Special Metals Wiggin) in the context of a COST 50 project to investigate the high cycle fatigue behaviour of Nimocast 739 and 738LC nickel base alloys, during which high cycle fatigue, creep, and tensile tests were performed.

Test data for high cycle fatigue on material IN 738 lc at 650 Celsius

GM McColvin & Henry Wiggin
Data created at Henry Wiggin (now Special Metals Wiggin) in the context of a COST 50 project to investigate the high cycle fatigue behaviour of Nimocast 739 and 738LC nickel base alloys, during which high cycle fatigue, creep, and tensile tests were performed.

Test data for high cycle fatigue on material IN 738 lc at 650 Celsius

GM McColvin & Henry Wiggin
Data created at Henry Wiggin (now Special Metals Wiggin) in the context of a COST 50 project to investigate the high cycle fatigue behaviour of Nimocast 739 and 738LC nickel base alloys, during which high cycle fatigue, creep, and tensile tests were performed.

Test data for high cycle fatigue on material IN 738 lc at 650 Celsius

GM McColvin & Henry Wiggin
Data created at Henry Wiggin (now Special Metals Wiggin) in the context of a COST 50 project to investigate the high cycle fatigue behaviour of Nimocast 739 and 738LC nickel base alloys, during which high cycle fatigue, creep, and tensile tests were performed.

Test data for high cycle fatigue on material IN 738 lc at 650 Celsius

GM McColvin & Henry Wiggin
Data created at Henry Wiggin (now Special Metals Wiggin) in the context of a COST 50 project to investigate the high cycle fatigue behaviour of Nimocast 739 and 738LC nickel base alloys, during which high cycle fatigue, creep, and tensile tests were performed.

Test data for high cycle fatigue on material IN 738 lc at 650 Celsius

GM McColvin & Henry Wiggin
Data created at Henry Wiggin (now Special Metals Wiggin) in the context of a COST 50 project to investigate the high cycle fatigue behaviour of Nimocast 739 and 738LC nickel base alloys, during which high cycle fatigue, creep, and tensile tests were performed.

Test data for high cycle fatigue on material IN 738 lc at 650 Celsius

GM McColvin & Henry Wiggin
Data created at Henry Wiggin (now Special Metals Wiggin) in the context of a COST 50 project to investigate the high cycle fatigue behaviour of Nimocast 739 and 738LC nickel base alloys, during which high cycle fatigue, creep, and tensile tests were performed.

Registration Year

  • 2015
    3,058

Resource Types

  • Dataset
    3,058