Shukichi Kimura scite author profile

Shukichi Kimura

3Publications

63Citation Statements Received

7Citation Statements Given

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109

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Tokuyama (Japan)

Publications

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Mechanical anisotropy in injection-molded polypropylene

Fujiyama

Awaya

Kimura

1977

J. Appl. Polym. Sci.

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SynopsisBy use of a mod with a film gate, two straight polypropylenes (PP) with different melt flow index (MFZ) and a glass fiber-reinforced polypropylene (FRPP) were injection molded at various temperatures into square plates with orientational anisotropy. The anisotropies of tensile property, tensile impact strength, and flexural property were studied on the molded sample cut mainly in the machine direction (MD), 45"-direction (45"), and transverse direction (TD). Both the orders of the yield strength and tensile impact strength of the FRPP, and those of the necking stress and tensile impact strength of the straight PP, were MD >45" >TD, which are reasonable tendencies. The orders of the yield strength and flexural modulus of the straight PP were MD > TD > 45O, which suggests the presence of shear deformation between the lamellae in the skin layer. The variation of the flexural modulus with the angle to the MD fitted well to Hearmon's equation. Generally, for straight PP, the anisotropy of various properties increased as the MFI and cylinder temperature became lower, or as the skin layer became thicker. For the FRPP, the anisotropy increased as the cylinder temperature became higher, or as the degree of the orientation of glass fibers became higher.

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Effect of molecular parameters on the shrinkage of injection-molded polypropylene

Fujiyama¹,

Kimura²

1978

J. Appl. Polym. Sci.

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SynopsisThe effect of some molecular parameters on the mold shrinkage, annealing shrinkage, and melting shrinkage of injection-molded polypropylene was studied. The mold shrinkage in the machine direction (MD) became higher as the melt flow index (MFI) became lower and the molecular weight distribution became broader. On the other hand, the mold shrinkage in the transverse direction (TD) showed a similar value (about 1.6%), regardless of the kind of resin, except for a glass fiberreinforced polypropylene which showed a very low value. The annealing shrinkage and melting shrinkage showed similar tendencies as the mold shrinkage. The mold shrinkage and annealing shrinkage in the MD were in linear relationships with the thickness of the skin layer having positive slopes; the melting shrinkage in the MD was in a downward-curved relationship with the thickness of the skin layer having a positive slope, respectively, regardless of the cylinder temperature and the kind of resin.

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Effect of some molecular parameters on the flexural properties of injection‐molded polypropylene

Fujiyama

Kimura

1977

J of Applied Polymer Sci

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Shukichi Kimura

Mechanical anisotropy in injection-molded polypropylene

Effect of molecular parameters on the shrinkage of injection-molded polypropylene

Effect of some molecular parameters on the flexural properties of injection‐molded polypropylene

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