Your search keyword '"Yoshihiro Inoue"' showing total 2 results

1. 3D billiard dynamics with finite rotation, contact, collision and slip friction

Author

Fumio FUJII, Kuo Mo HSIAO, Takaya KOBAYASHI, Yoshihiro INOUE, and Takahiro NITTA

Subjects

3d billiards, finite rotation, contact, slip, friction, rigid body mechanics, Mechanical engineering and machinery, TJ1-1570, Engineering machinery, tools, and implements, TA213-215

Abstract

The popular sports entertainment, billiards, is rich in mechanical issues such as 3D finite rotation, collision, contact and friction, evoking a research interest in rigid-body dynamics, nonlinear CAE and computational mechanics. However, the 3D nonlinear behavior of a rigid ball has so far hardly received the attention of scholars to exercise the mechanical modeling skill. The represent study focuses, therefore, on 3D nonlinear billiard dynamics and attempts to precisely predict the ball behavior in finite rotational motion with collision, contact and slip friction. In dependence upon ball situations, 4 different models are proposed. They are namely, rotation model, strike model, collision model and reflection mode. The rotation model is an elementary model and describes the 3D ball motion after a cue strike and subject to table friction only. The strike model is useful to study the effects of cue striking. For simplicity, the strike points are limited to the ball center, 12, 3, 6 and 9 o'clock' in the ball projection. The collision model ignores the ball-to-ball friction and the law of conservation of momentum holds to predict the velocities of two balls after collision. The reflection model simulates the ball-to-cushion contact in bank shots. Incidence angle, translational and rotational velocities, cushion elasticity and frictional properties may be variable in a parameter study. In all these 4 models, the ball is assumed to be in contact to the table surface. Masse or jump shots are excluded in modeling. The equations of ball motion are time-integrated by forward Euler method. The models are verified and validated in numerical examples including optimization and parameter studies. All computed results well agree with the hustler’s experiences in game practice. The present research work will contribute to develop a skill-up program of professional hustlers.

Published

2016

2. ZnOの特性に及ぼすPrの添加効果に関する研究

Author

Yoshihiro, Inoue

Abstract

Zinc oxide (ZnO) is widely used as the materials of green phosphor,transparent conductor, surface acoustic wave (SAW) devices, gas sensor,varistor and so on. However, the correlation between intrinsic defects of ZnOand the functionalities is in controversy. In particular, it is not clear yetregarding the point defect structures of ZnO associated with semiconduction,green emissions, and varistor characteristics. It is important that evaluationsare based on the perspective of crystallographic elucidation, which is focusedon the control by synthesis methods and additives. Thus, it is necessary toinvestigate the role of intrinsic defects and additives on ZnO properties andthe functionalities. The studies of ZnO doped with Pr (ZnO:Pr) known for thevaristor should be useful for the elucidation of the point defect structures ofZnO.The purpose of this paper is to elucidate the Pr doping effects on theproperties of ZnO ceramics. In order to understand the role of intrinsic defectsof ZnO and Pr on the structural and luminescent properties of ZnO:Pr, theproperties of ZnO:Pr powders prepared by dry reaction within evacuatedsealed silica tube (ESST) were studied by using X-ray powder diffraction(XRD), photoacoustic spectroscopy (PAS), scanning electronmicroscope(SEM), photoluminescence (PL) measurement, andphotoluminescence excitation(PLE) measurement. Moreover, in order tounderstand the role of Pr on the carrier transport properties of ZnO:Pr, theelectrical and thermoelectric properties of porous ZnO:Pr bulk were studied.It is found that the intrinsic defects such as VO,VZn,Oi,OZn and the complexwere enhanced around the trivalent Pr-ion in the vicinity of grain boundaries.This study showed that the Pr in ZnO effected the enhancement of greenemission and affected the carrier transport with the changes in temperature.These results are expected to contribute for the elucidation of the point defectstructures of ZnO., 2007