Tungsten Alloy Development as Advanced Target Material for High-Power Proton Accelerator

Tungsten (W) is a principal candidate as target material because of its high density and extremely high melting point. W inherently has a critical disadvantage of its brittleness at around room temperature (low temperature brittleness), recrystallization embrittlement, and irradiation embrittlement....

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Detalles Bibliográficos
Autores principales: Makimura, Shunsuke, Kurishita, Hiroaki, Niikura, Koichi, Jung, Hun-Chea, Onoi, Masahiro, Nagasawa, Yutaka, Ishida, Taku, Calviani, Marco, Torregrosa, Claudio, Descarrega, Josep B
Lenguaje:eng
Publicado: 2020
Materias:
Accelerators and Storage Rings
Acceso en línea:https://dx.doi.org/10.7566/jpscp.28.031002
http://cds.cern.ch/record/2799870
Descripción
Sumario:Tungsten (W) is a principal candidate as target material because of its high density and extremely high melting point. W inherently has a critical disadvantage of its brittleness at around room temperature (low temperature brittleness), recrystallization embrittlement, and irradiation embrittlement. TFGR (Toughened, Fine Grained, Recrystallized) W-1.1%TiC has been considered as a realized solution to the embrittlement problems. We started to fabricate TFGR W-1.1%TiC in 2016 under collaboration between KEK and Metal Technology Co., LTD (MTC). The TFGR W-1.1%TiC samples were successfully fabricated in June, 2018. As a result, the specimen showed slight bend ductility and 2.6 GPa of fracture strength. The TFGR W-1.1%TiC was included in the HRMT-48 PROTAD experiment on September 28th, 2018. After cooling, the post-irradiation-examination will be conducted for the irradiated TFGR W-1.1%TiC.

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