Takuya Nagahama scite author profile

Takuya Nagahama

5Publications

15Citation Statements Received

84Citation Statements Given

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Carrier doping effect of humidity for single-crystal graphene on SiC

Kitaoka¹,

Nagahama²,

Nakamura³

et al. 2017

Jpn. J. Appl. Phys.

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Carrier doping effects of water vapor and an adsorbed water layer on single-crystal graphene were evaluated. After annealing at 300 °C in nitrogen ambient, the sheet resistance of epitaxial graphene on a SiC substrate had a minimum value of 800 Ω/sq and the carrier density was estimated to be 1.2 × 10 13 cm-2 for an n-type dopant. The adsorbed water layer, which acted as a p-type dopant with a carrier density of-7.4 × 10 12 cm-2 , was formed by deionized (DI) water treatment. The sheet resistances of graphene samples increased with humidity, owing to the counter doping effect. The estimated p-type doping amounts of saturated water vapor were-2.5 × 10 12 cm-2 for DI-water-treated graphene and-3.5 × 10 12 cm-2 for annealed graphene.

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Cold- and warm-forging press developments and applications

Nagahama¹,

Enomae²

1992

Journal of Materials Processing Technology

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A novel stack capacitor cell for high density FeRAM compatible with CMOS logic

Hayashi

Igarashi

Inomata

et al.

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Effect of Pass Schedule on Cross-Sectional Shapes of Circular Seamless Pipes Reshaped into Square Shapes by Hot Roll Sizing Mill

et al. 2004

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A heavy gauge square steel pipe is manufactured by a hot roll sizing process, in view of difficulty in manufacturing such a pipe with sharp corners by cold roll forming. In this paper, the effect of pass schedule on a cross-sectional shape is discussed by referring to experimental measurements, and results calculated by the rigid-plastic finite element method. The experiment was carried out at the last step of the sizing process for seamless pipes. The corners of a product become sharper as the magnitude of total reduction increases. In the case of a two-roll type roller, the corner near the roll flange becomes sharper than the corner near the groove bottom. The hollow depth at the sides is small when the incremental reduction at each sizing stand is high at the early reshaping stage with a large bending curvature (ðD 0 =2Þ=R i , R i : bending radius, D 0 : initial external diameter of a circular seamless pipe) and low at the late reshaping stage with a small bending curvature. (Received August 7, 2003; Accepted September 19, 2003) Keywords: hot roll forming, tube forming, seamless pipe, heavy gauge square pipe, rigid-plastic finite element method PrefaceSquare steel pipes are often used as pillars for low-rise to high-rise steel constructions. They are mainly cold-formed square steel pipes, which are produced by a roll forming system or a press forming system. The roll forming system continuously reshapes ERW pipe into square steel pipes by tandem pass forming rolls. The press forming system forms a steel plate into a square cross-section or a pair of groove cross-sections and finishes the thus-produced intermediate products into a square steel pipe. Square steel pipes formed by these systems are required to have high dimensional precision. The requisites of square steel pipes used for pillar and beam joints (connections) are a cross-sectional shape with a large flat area and small corners for high processability, and excellent flatness on the sides.In production of square steel pipe by the roll forming system, the corners can be reduced to some extent by increasing the amount of forming (reduction) with pass forming rolls. As the reduction is increased and the corners are made smaller, the corner walls become obviously thicker, 1) work hardening progresses, and deformability (toughness) decreases. Excess reduction may crack corners and disable forming. Since thick materials make the corner walls even thicker, the cold forming of thick-wall square steel pipes with small corners is known to be difficult. The work hardening of corners poses not only a forming problem, but also a problem in earthquake resistance, because corners exhibit low plastic deformability.The thermal treatment of formed square steel pipes is a means of eliminating work hardening strain but involves many problems, including high cost and generation of lengthwise warpage.Bearing these problems in mind, the authors performed hot roll forming of circular pipes by heating to the recrystallization temperature or higher, and conducted an experi...

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Finite Elemental Analyses of Forming Ultra Heavy Gauge Square Tube Using Hot Sizing Mill

Nagahama¹,

Kenmochi²,

Sakata³

2007

Tetsu-to-Hagane

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Takuya Nagahama

Carrier doping effect of humidity for single-crystal graphene on SiC

Cold- and warm-forging press developments and applications

A novel stack capacitor cell for high density FeRAM compatible with CMOS logic

Effect of Pass Schedule on Cross-Sectional Shapes of Circular Seamless Pipes Reshaped into Square Shapes by Hot Roll Sizing Mill

Finite Elemental Analyses of Forming Ultra Heavy Gauge Square Tube Using Hot Sizing Mill

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