ガラス短繊維強化pps樹脂の繊維配向分布を考慮したマイクロメカニックスに基づくx線応力評価

Shimizu, K.; KAMEYAMA, Koji; SAITO, Miori; KIMURA, Keiji; KOKURYU, Etsuo; Tanaka, Keisuke

doi:10.2472/jsms.72.324

J. Soc. Mat. Sci., Japan

2023

DOI: 10.2472/jsms.72.324

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ガラス短繊維強化pps樹脂の繊維配向分布を考慮したマイクロメカニックスに基づくx線応力評価

K. Shimizu

Koji KAMEYAMA

Miori SAITO

et al.

Abstract: The stress in polyphenylene sulfide (PPS) resin reinforced by glass fibers of 26 mass% was measured by the diffraction method using synchrotron with energy of 18 keV. The stress in the matrix was determined by the sin 2 ψ method with iso-inclination optics of transmitted X-ray diffractions. Tensile coupon specimens were cut from the skin-layer of injection molded plates in three directions, parallel, perpendicular and 45°, to the molding direction. The matrix stresses in the loading and transverse directions o… Show more

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ガラス短繊維強化pps樹脂の引張強さと疲労特性の樹脂相応力に基づく評価

SHIMIZU,

KAMEYAMA,

SAITO

et al. 2023

J. Soc. Mat. Sci., Japan

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Two types of tensile specimens of short-glass-fiber reinforced PPS (polyphenylene sulfide) (SGFRP) were cut from the surface layer of injection molded plates. They were 0° specimens with fibers predominantly oriented in the loading direction and 90° specimens with fibers perpendicular to the loading direction. During loading and unloading, the change of the matrix phase stress in SGFRP measured by the synchrotron X-ray method showed a good agreement to the value computed by micromechanics considering fiber orientation distribution. The matrix phase stress in the loading direction at tensile fracture of 0° and 90° specimens were about the same, although the tensile strength of the former is much higher than the latter. The matrix phase stress of SGFRP at fracture was nearly half of the fracture stress of PPS specimens without reinforcement. The reduction of fracture stress of PPS matrix comes from the stress concentration due to fibers. The fatigue life of smooth specimens of SGFRP was also controlled by the matrix stress increased by an amount of stress concentration factor. When the fatigue life is correlated to the matrix equivalent stress, S-N diagrams of 0° and 90° specimens including PPS specimens showed an almost identical relationship. The same factor of stress concentration applicable to tensile and to fatigue fracture may provide a physical basis for good correlation between the fatigue strength and the tensile strength of SGFRP.

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ガラス短繊維強化pps樹脂の引張強さと疲労特性の樹脂相応力に基づく評価

SHIMIZU,

KAMEYAMA,

SAITO

et al. 2023

J. Soc. Mat. Sci., Japan

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show abstract

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ガラス短繊維強化pps樹脂の繊維配向分布を考慮したマイクロメカニックスに基づくx線応力評価

Cited by 1 publication

References 13 publications

ガラス短繊維強化pps樹脂の引張強さと疲労特性の樹脂相応力に基づく評価

ガラス短繊維強化pps樹脂の引張強さと疲労特性の樹脂相応力に基づく評価

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