Tadashi Masuyama scite author profile

Tadashi Masuyama

4Publications

59Citation Statements Received

9Citation Statements Given

How they've been cited

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Affiliations

National Institute of Technology, Oyama College, Tohoku University, National Institute of Technology, Tsuruoka College

Publications

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Simulation of Rolling Contact Fatigue Strength for Traction Drive Elements

Narita

Yamanaka

Kazama

et al. 2013

JAMDSM

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A simulation of the rolling contact fatigue strength of a traction drive element was proposed. The simulation can account for both the distribution of sizes of inclusions in the element material and the influence of traction forces at the element surface. The shear strength of the matrix structure surrounding an inclusion was estimated with an equation. The hardness distribution and the Weibull distribution of inclusion dimensions, which were necessary parameters to calculate the rolling contact fatigue strength, were determined by observation of an actual test specimen. And the rolling contact fatigue strength was compared with the distribution of shear stresses in a roller affected by traction forces. A simulation assuming the same traction coefficient as that in the experiment predicted a rolling contact fatigue strength of 810 MPa with a standard deviation of 39.2 MPa, which differed from the experimental value by only 2.5%. Simulations of the rolling contact fatigue strength were then carried out while varying the traction coefficient. The contact force resulting in failure was observed to fall as the traction coefficient increased and the torque capacity increased. Thus, the torque capacity increases with the traction coefficient, regardless of changes in the rolling contact fatigue strength.

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Two-stage equilibrium model for a coal gasifier to predict the accurate carbon conversion in hydrogen production

Yoshida

Kiyono

Tajima

et al. 2008

Fuel

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A nurbs finite element method for product shape design

Inoue

Kikuchi

Masuyama

2005

Journal of Engineering Design

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Formation of HFC-134a hydrate by static mixing

Tajima

Nagata

Yamasaki

et al. 2007

Journal of Petroleum Science and Engineering

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