Koichi Okuno scite author profile

In recent years, there has been a need for compact shielding design such as self-shielding of a PET cyclotron or upgradation of radiation machinery in existing facilities. In these cases, high performance shielding materials are needed. Concrete or polyethylene have been used for a neutron shield. However, for compact shielding, they fall short in terms of performance or durability. Therefore, a new type of neutron shielding material based on epoxy resin and colemanite has been developed. Slab attenuation experiments up to 40 cm for the new shielding material were carried out using a 252Cf neutron source. Measurement was carried out using a REM-counter, and compared with calculation. The results show that the shielding performance is better than concrete and polyethylene mixed with 10 wt% boron oxide. From the result, we confirmed that the performance of the new material is suitable for practical use.

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Development of Novel Neutron Shielding Concrete

Okuno¹,

Kawai

Yamada³

2009

Nuclear Technology

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Neutronic Analysis of Fusion Tokamak Devices by PHITS

Sukegawa

Takiyoshi

Amano

et al. 2011

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A complete 3D neutronic analysis by PHITS (Particle and Heavy Ion Transport code System) has been performed for fusion tokamaku devices such as JT-60U device and JT-60 Superconducting tokamak device (JT-60 Super Advanced). The mono-energetic neutrons (E n =2.45 MeV) of the DD fusion devices are used for the neutron source in the analysis. The visual neutron flux distribution for the estimation of the port streaming and the dose rate around the fusion tokamak devices has been calculated by the PHITS. The PHITS analysis makes it clear that the effect of the port streaming of superconducting fusion tokamak device with the cryostat is crucial and the calculated neutron spectrum results by PHITS agree with the MCNP-4C2 results.

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Flexible heat resistant neutron shielding resin

Sukegawa

Anayama²,

Okuno³

et al. 2011

Journal of Nuclear Materials

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Koichi Okuno

Solution structure of the transactivation domain of ATF-2 comprising a zinc finger-like subdomain and a flexiblesubdomain

Neutron shielding material based on colemanite and epoxy resin

Development of Novel Neutron Shielding Concrete

Neutronic Analysis of Fusion Tokamak Devices by PHITS

Flexible heat resistant neutron shielding resin

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