Hiroshi Kuribara scite author profile

Hiroshi Kuribara

5Publications

25Citation Statements Received

45Citation Statements Given

How they've been cited

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Affiliations

Saitama Prefecture, Honda (Japan), Hitachi (United Kingdom)

Publications

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Nonlinear Seismic Responses of Container Cranes Including the Contact Problem Between Wheels and Rails

Kobayashi

Kuribara

Honda

et al. 2004

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This paper presents a modeling method based on multibody dynamics formulation for simulating the three-dimensional nonlinear seismic response of a large, movable container crane, including the contact problem regarding the wheels attached to the bottom of its legs and the rails on which they ride. As a container crane is large and flexible structure, its wheels should be lifted up and derailed due to the seismic excitation. The contact configuration and the contact forces between the wheels and the rail or the ground that significantly affect the seismic response of the structure are classified and calculated in reference to geometric relationships between contact-judging markers on the wheels and the rails. It is found that the numerical simulations with the presented modeling method quite accurately simulates the nonlinear seismic response of a container crane including the uplifting and derailment behavior of the wheels that is found in large-scale model shaking tests.

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Non-cylindrical transmission focusing for large depth of field

Umemura

Azuma

Miwa

et al.

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Triplet pulse sequence for superior microbubble/tissue contrast

Umemura

Azuma

Kuribara

et al.

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Coupled simulation of elastohydrodynamics and multi-flexible body dynamics in piston-lubrication system

Kim¹,

Choi²,

Kim

et al. 2019

Advances in Mechanical Engineering

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In this work, we propose a robust modeling and analysis technique of the piston-lubrication system considering fluid–structure interaction. The proposed schemes are based on combining the elastohydrodynamic analysis and multi-flexible body dynamics. In particular, multi-flexible body dynamics analysis can offer highly precise numerical results regarding nonlinear deformation of the piston skirt and cylinder bore, which can lead to more accurate results of film thickness for gaps filled with lubricant and of relative velocity of facing surfaces between the piston skirt and the cylinder block. These dynamic analysis results are also used in the elastohydrodynamic analysis to compute the oil film pressure and asperity contact pressure that are used as external forces to evaluate the dynamic motions of the flexible bodies. A series of processes are repeated to accurately predict the lubrication characteristics such as the clearance and oil film pressure. In addition, the Craig–Bampton modal reduction, which is a standard type of component mode synthesis, is employed to accelerate the computational speed. The performance of the proposed modeling schemes implemented in the RecurDyn™ multi-flexible body dynamics environment is demonstrated using a well-established numerical example, and the proposed simulation methods are also verified with the experimental results in a motor cycle engine (gasoline) which has a four cycle, single cylinder, overhead camshaft (OHC), air cooled.

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An Approach to the Contact Problem for Objects with Complex Configuration.

Kuribara¹,

Kobayashi²

2000

Trans.JSME(C)

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