Thermal creep tests on irradiated specimens

Research output: Report/book › ER - External report

Standard

Thermal creep tests on irradiated specimens. / Bosch, Rik-Wouter ; Van Eyken, Jelle.

0 ed. Studiecentrum voor Kernenergie, 2015. 37 p. (SCK•CEN Reports; No. SCK•CEN ER-0326).

Research output: Report/book › ER - External report

Harvard

Bosch, R-W & Van Eyken, J 2015, Thermal creep tests on irradiated specimens. SCK•CEN Reports, no. SCK•CEN ER-0326, vol. F4E-GRT-291, 0 edn, Studiecentrum voor Kernenergie.

APA

Bosch, R-W., & Van Eyken, J. (2015). Thermal creep tests on irradiated specimens. (0 ed.) (SCK•CEN Reports; No. SCK•CEN ER-0326). Studiecentrum voor Kernenergie.

Vancouver

Bosch R-W , Van Eyken J. Thermal creep tests on irradiated specimens. 0 ed. Studiecentrum voor Kernenergie, 2015. 37 p. (SCK•CEN Reports; SCK•CEN ER-0326).

Author

Bosch, Rik-Wouter ; Van Eyken, Jelle. / Thermal creep tests on irradiated specimens. 0 ed. Studiecentrum voor Kernenergie, 2015. 37 p. (SCK•CEN Reports; SCK•CEN ER-0326).

Bibtex - Download

@book{7fd5f0eddb2146d28bd8a6a795335a56,

title = "Thermal creep tests on irradiated specimens",

abstract = "Post-irradiation thermal creep tests have been carried out with CuCrZr/CuCrZr and CuCrZr/316L joints. This was a part of the project related to {"}Technical specification for in-pile creep relaxation and post-irradiation thermal creep test{"}. Six specimens have been tested; three CuCrZr/CuCrZr joints irradiated up to 0.69 dpa and three CuCrZr/316L joints, also irradiated to 0.69 dpa. The thermal creep tests were carried out at 250°C, with the applied stress just below the ultimate tensile stress. Creep fracture times were supposed to be approximately one week.The CuCrZr/CuCrZr joints failed in less than a week, most probably because the applied stress was a bit too high. The CuCrZr/316L joints failed in about a week as predicted by the creep stress calculations.SEM observations showed that intergranular fracture was present for the CuCrZr/CuCrZr specimens, subjected to fast rupture. Leaflet like feature were present on all specimens, being an indication that fractured occurred in the HIP zone. Very flat fracture surfaces were found for the CuCrZr/316L joints.",

keywords = "thermal creep test, CuCrZr alloy, fusion",

author = "Rik-Wouter Bosch and {Van Eyken}, Jelle",

note = "Score=2",

year = "2015",

month = "9",

day = "1",

language = "English",

isbn = "1782-2335",

volume = "F4E-GRT-291",

series = "SCK•CEN Reports",

publisher = "Studiecentrum voor Kernenergie",

number = "SCK•CEN ER-0326",

edition = "0",

}

RIS - Download

TY - BOOK

T1 - Thermal creep tests on irradiated specimens

AU - Bosch, Rik-Wouter

AU - Van Eyken, Jelle

N1 - Score=2

PY - 2015/9/1

Y1 - 2015/9/1

N2 - Post-irradiation thermal creep tests have been carried out with CuCrZr/CuCrZr and CuCrZr/316L joints. This was a part of the project related to "Technical specification for in-pile creep relaxation and post-irradiation thermal creep test". Six specimens have been tested; three CuCrZr/CuCrZr joints irradiated up to 0.69 dpa and three CuCrZr/316L joints, also irradiated to 0.69 dpa. The thermal creep tests were carried out at 250°C, with the applied stress just below the ultimate tensile stress. Creep fracture times were supposed to be approximately one week.The CuCrZr/CuCrZr joints failed in less than a week, most probably because the applied stress was a bit too high. The CuCrZr/316L joints failed in about a week as predicted by the creep stress calculations.SEM observations showed that intergranular fracture was present for the CuCrZr/CuCrZr specimens, subjected to fast rupture. Leaflet like feature were present on all specimens, being an indication that fractured occurred in the HIP zone. Very flat fracture surfaces were found for the CuCrZr/316L joints.

AB - Post-irradiation thermal creep tests have been carried out with CuCrZr/CuCrZr and CuCrZr/316L joints. This was a part of the project related to "Technical specification for in-pile creep relaxation and post-irradiation thermal creep test". Six specimens have been tested; three CuCrZr/CuCrZr joints irradiated up to 0.69 dpa and three CuCrZr/316L joints, also irradiated to 0.69 dpa. The thermal creep tests were carried out at 250°C, with the applied stress just below the ultimate tensile stress. Creep fracture times were supposed to be approximately one week.The CuCrZr/CuCrZr joints failed in less than a week, most probably because the applied stress was a bit too high. The CuCrZr/316L joints failed in about a week as predicted by the creep stress calculations.SEM observations showed that intergranular fracture was present for the CuCrZr/CuCrZr specimens, subjected to fast rupture. Leaflet like feature were present on all specimens, being an indication that fractured occurred in the HIP zone. Very flat fracture surfaces were found for the CuCrZr/316L joints.

KW - thermal creep test

KW - CuCrZr alloy

KW - fusion

UR - http://ecm.sckcen.be/OTCS/llisapi.dll/open/12520088

M3 - ER - External report

SN - 1782-2335

VL - F4E-GRT-291

T3 - SCK•CEN Reports

BT - Thermal creep tests on irradiated specimens

PB - Studiecentrum voor Kernenergie

ER -

ID: 1013436