Hiroki Ashida scite author profile

The purpose of this study is to clarify the effect of the fiber crimps in braided carbon fiber reinforced plastics pipe (Braid pipe). Braid pipes with different crimp angles were fabricated by using carbon fiber with different fineness for the braiding yarn and different 0° fiber contents. Larger fineness of carbon fiber and/or more content of 0° fiber made the crimp angle larger. The braiding angle was ±45°and 0°fiber (MEY) was inserted between braiding yarns. 0° fiber content was changed as, 0%, 15% and 29%. The effects of crimp on the bending property and the torsion property were investigated comparing with SW pipes with non-crimp structure made by Sheet Winding method. As regarding bending property, Braid pipe performed 75% to 95% of the bending modulus of the SW pipe. With the increase in the crimp angle, the bending modulus was linearly decreased. The longitudinal yarn in Braid pipe with gap between braiding yarns had crimp and bending strength was decreased. The Poisson's ratio of Braid pipe was smaller by 67% than that of SW pipe. The crimp in longitudinal yarn and Poisson's ratio had greater effect on the bending strength than the crimp of braiding yarn. As regarding torsion property, both of the torsion modulus and strength were decreased with the increase in the crimp angle at braiding yarn. The crimp had 2.5 times greater effect on torsion strength than torsion modulus. It was clarified that the effect of crimp at braiding yarn on the mechanical properties depended on the angle between fiber orientation and the principal stress directions.

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Estimation of Golf Club Head and Ball Motions by Neural Network

Hokari

Doki

Naruo³

et al. 2007

Trans.JSME(C)

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Hiroki Ashida

The Effect of Deflection of a Golf Club Shaft During Down Swing.

Rotation Measurement of Human Body in Golf Club Swings and Skill Evaluation

The Motion of Golfer's Cock and Roll that Influences Club Head and Ball Motions

Effect of braided structure on mechanical properties of CFRP pipes

Estimation of Golf Club Head and Ball Motions by Neural Network

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