Synergistic Effect on Formation of Radiation Damage in CLAM Steel Studied by Triple Beam Irradiation

Synergistic Effect on Formation of Radiation Damage in CLAM Steel Studied by Triple Beam Irradiation

The synergistic effect associated with displacement damage, hydrogen and heliumin the China Low Activation Martensitic (CLAM) steel has been investigated using the triple ion beamirradiation. Triple ion beams, an iron beam of 109 MeV degraded by a tantalum foil of 7.45 μm thick, the100 keV hydrogen...

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Veröffentlicht in:Diffusion and defect data. Solid state data. Pt. A, Defect and diffusion forum Defect and diffusion forum, 2017-03, Vol.373, p.117-121
Hauptverfasser: Zheng, Yong Nan, Zuo, Yi, Cao, Xing Zhong, Feng, Wei, Cui, Bao Qun, Xiong, Wen Jun, Chen, Li Hua, Jiang, Wei Sheng, Wen, Ali, Wang, Bao Yi, Lei, Peng, Liang, Jun Chen, Wu, Yi Can, Xia, Hai Hong, Fan, Ping, Wei, Long, Ma, Hai Liang, Huang, Qun Ying, Zhang, Qiao Li, Yuan, Da Qing, Ma, Xiao Qiang, Zhu, Sheng Yun
Format: Artikel
Sprache:eng
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Zusammenfassung:The synergistic effect associated with displacement damage, hydrogen and heliumin the China Low Activation Martensitic (CLAM) steel has been investigated using the triple ion beamirradiation. Triple ion beams, an iron beam of 109 MeV degraded by a tantalum foil of 7.45 μm thick, the100 keV hydrogen and 200 keV helium, were injected into the CLAM steel samples simultaneously or sequentially.The radiation damage examinations were carried out by the slow positron Doppler broadening technique. Themeasured S parameters indicate that the radiation damage is different for different irradiationprocedures with same dpa and concentrations of H and He. The sample suffers most severe damage in the simultaneoustriple beam irradiation. The present experimental results support the molecular dynamics simulation result that the H facilitates the He-bubble nucleation and growth.
ISSN:1012-0386
1662-9507
1662-9507
DOI:10.4028/www.scientific.net/DDF.373.117