Akira Kiuchi scite author profile

Akira Kiuchi

5Publications

36Citation Statements Received

68Citation Statements Given

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Affiliations

Center for Children, Kobe Steel (Japan), Tokyo University of Agriculture and Technology

Publications

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Clinical Evaluation of the Bioavailability of Zinc-enriched Yeast and Zinc Gluconate in Healthy Volunteers

Tompkins¹,

Renard²,

Kiuchi³

2007

Biol Trace Elem Res

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Zinc (Zn)-enriched yeast and gluconate are considered two of the more biologically available supplements. However, there have been few reports comparing the bioavailability of these supplements. The objective of this study was to demonstrate whether Zn was absorbed better by healthy male volunteers when given supplements where the mineral is found organically bound in yeast or as a salt gluconate form. The trial used a randomized, two-way crossover design. Urine, blood, and fecal samples were collected and analyzed over a 48-h period after a single dose of supplement. The net Zn balance and the relative bioavailability were calculated. No differences were observed in urine excretion of the two supplements. Zinc gluconate gave higher Zn concentrations in the blood in the first 6 h but also showed greater losses in the feces. Zinc yeast also increased in blood with time but showed significantly less loss in the feces. Thus, the net Zn balance after 48 h for Zn yeast was 9.46 but for Zn gluconate it was -2.00, indicating that Zn gluconate supplementation contributed to a net loss of Zn. It was concluded that organic Zn yeast supplements are more biologically available than Zn gluconate salts.

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Long co-planar mode III fatigue crack growth under non-proportional mixed mode loading in rail steel

Akama

Kiuchi²

2012

Proceedings of the Institution of Mechanical Engineers, Part F:

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Fatigue tests have been performed to obtain the co-planar crack growth rate in rail steel under non-proportional mixed mode I and mode III cycles. In addition, a finite element analysis (FEA) has been performed to investigate the crack growth behaviour under this loading. The experiments showed that a long co-planar crack could be produced under this loading. Based on fracture surface observations obtained using a scanning electron microscope and FEA, the long coplanar crack growth was thought to be driven mainly by mode III loading and the role of mode I was as an assistant; keeping the crack face open. It was also observed that the crack tended to branch when the degree of overlap between the mode I and mode III cycles increased. Comparing the crack growth rate data under loading with that under nonproportional mixed mode I and II cycles, it was found that the co-planar growth rates were similar regardless of whether the main driving force was in-plane shear or out-of-plane shear.

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Fatigue Crack Growth under Non-Proportional Mixed Mode Loading in Rail and Wheel Steel Part 2: Sequential Mode I and Mode III Loading

Akama

Kiuchi²

2019

Applied Sciences

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Rolling contact fatigue cracks in rail and wheel undergo non-proportional mixed mode I/II/III loading. Fatigue tests were performed to determine the coplanar and branch crack growth rates on these materials. Sequential and overlapping mode I and III loading cycles were applied to single cracks in round bar specimens. Experiments in which this is done have been rarely performed. The fracture surface observations and the finite element analysis results suggested that the growth of long (does not branch but grown stably and straight) coplanar cracks was driven mainly by mode III loading. The cracks tended to branch when increasing the material strength and/or the degree of overlap between the mode I and III loading cycles. The equivalent stress intensity factor range that can consider the crack face contact and successfully regressed the crack growth rate data is proposed for the branch crack. Based on the results obtained in this study, the mechanism of long coplanar shear-mode crack growth turned out to be the same regardless of whether the main driving force is in-plane shear or out-of-plane shear.

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Phased array operation of nanocrystalline porous silicon ultrasonic emitters

Hirota¹,

Kiuchi

Koshida

2005

phys. stat. sol. (c)

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To confirm the applicability of thermally induced ultrasound emission from nanocrystalline porous silicon (nc-PS) devices as directional sound emitter, the radiation pattern of one-dimensionally arrayed nc-PS device have been investigated. The nc-PS emitter is fabricated on a p-type Si substrate by conventional electrochemical anodization with subsequent formation of the surface electrode. It is shown that the emission pattern of arrayed devices can be controlled due to flat nature of the frequency response of the individual nc-PS devices. Furthermore we report a technique for wave control by phase-shift operation. This PS array enables the development of a directional sound emitter and intense sound source.

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Possible Operation of Periodically Layered Nanocrystalline Porous Silicon as an Acoustic Band Crystal Device

et al. 2004

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It is shown that the periodic stacked structures of nanocrystalline porous silicon (nc-PS) layers with controlled densities and elastic properties act as an acoustic band crystal (ABC) device. Supposing that the periodic nc-PS layers are formed by conventional modulated anodization technique to fabricate the multi-layered distributed Brag reflection mirror, the acoustic wave propagation modes are investigated theoretically for various structural parameters. According to the calculation results, a significant acoustic band gaps are generated in the ultrasonic regions due to a big contrast in the elastic constant produced between low-porosity and compact nc-PS layers. The propagation of acoustic wave can be completely suppressed in the characteristic band determined from designed parameters. The present result suggests further possibility of the nc-PS layer as a key component of ABC devices.

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Akira Kiuchi

Clinical Evaluation of the Bioavailability of Zinc-enriched Yeast and Zinc Gluconate in Healthy Volunteers

Long co-planar mode III fatigue crack growth under non-proportional mixed mode loading in rail steel

Fatigue Crack Growth under Non-Proportional Mixed Mode Loading in Rail and Wheel Steel Part 2: Sequential Mode I and Mode III Loading

Phased array operation of nanocrystalline porous silicon ultrasonic emitters

Possible Operation of Periodically Layered Nanocrystalline Porous Silicon as an Acoustic Band Crystal Device

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