Toshiyuki Aratani scite author profile

Toshiyuki Aratani

3Publications

5Citation Statements Received

80Citation Statements Given

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Affiliations

Toyohashi University of Technology, The University of Tokyo

Publications

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Physical Properties, Crystallization, and Thermal/Hydrolytic Degradation of Poly(L‐lactide)/Nano/Micro‐Diamond Composites

Tsuji

Aratani

Takikawa

2013

Macro Materials & Eng

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The effects of incorporated nano/micro‐diamond (NMD) on the physical properties, crystallization, thermal/hydrolytic degradation of poly(L‐lactic acid) (PLLA) were investigated for a wide NMD concentration range of 0–10 wt.‐%. Incorporated NMD increased the tensile modulus and strength of PLLA films but decreased the elongation at break of PLLA films. Incorporated NMD accelerated the crystallization of PLLA during heating and cooling and increased the absolute crystallization enthalpy of PLLA films (except for an NMD concentration of 10 wt.‐% during cooling) but did not alter the crystallization mechanism. Incorporated NMD increased and decreased the thermal stability of PLLA films for NMD concentrations of 1–5 and 10 wt.‐%, respectively, and increased the hydrolytic degradation resistance of PLLA films.

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Macromol. Mater. Eng. 11/2013

Tsuji

Aratani

Takikawa

2013

Macro Materials & Eng

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ICONE19-43954 Development of Estimation of Activity Induced in Concrete in Nuclear Power Plants

Aratani

Ogawa

Abe

et al. 2011

ICONE

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Biological shielding wall (BSW) concrete of commercial LWR is activated by neutrons emitted from the reactor core during its operation. Most of wasted BSW, having a large volume, is classified as very low radioactive level. It has been suggested that deterministic calculation methods give inaccurate estimation of activation in nuclear facilities. By using Monte-Carlo calculation methods, induced radioactivity in concrete could be estimated more accurately.The discrepancy between the calculated and measured activation in concrete is said that it attributed to water content of concrete and reinforcing bars. Concrete samples with different water to cement weight ratio without reinforcing bars and one containing reinforcing bars were exposed to neutrons in the fast column of the research reactor "YAYOI" and induced radioactivity inside were measured with gold foils by the foil activation method. Radiation transport was simulated by DORT, MCNP-5 and compared with experimental results.The build-up of 197 Au (n,) reaction rate depth profile in the sample was not found. Regardless of the water to cement ratio, the distribution of activation in the concrete samples agreed within the margin of error. The reinforced concrete was weakened reaction rate about 40 percent. Reinforcing bars did not affect epi-thermal neutron flux significantly.

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