Atsushi Minato scite author profile

Herein, 10-fold expansion ratio foams were successfully fabricated for the first time by a core-back foam injection molding (FIM) technique using a newly developed long-chain branching polypropylene (LCBPP). Different rheological curves were investigated to distinguish the strain hardening behavior and melt strength of the LCBPP from isotactic polypropylene (iPP). Fast scanning chip calorimetry (FSC) results revealed that the long-chain branches could increase the crystallization temperature even at fast cooling rates. The FIM of LCBPP could notably not only reduce the cell sizes but also increase the cell densities through the capability of LCBPP to stabilize cells and prevent cells from coalescence. Furthermore, the foam processing window of manufacturing 10-fold expansion foams was significantly broadened for LCBPP foams. This study revealed that the introduction of longchain branches is a good approach to fabricate high expansion microcellular foams for different potential applications such as construction and transportation.

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Radiation Buildup on Stainless Steel in a Boiling Water Reactor Environment

Honda

Izumiya

Minato

et al. 1984

Nuclear Technology

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Inhibitory Effect of High Dietary Zinc on Copper Absorption in Rats

Ogiso¹,

Moriyama²,

Sasaki³

et al. 1974

Chem. Pharm. Bull.

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Computer Experiments on Soliton Production for Realizing Laboratory Experiments

Itaba

Minato

Ozawa

et al. 2002

Jpn. J. Appl. Phys.

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Atsushi Minato

Fabrication of High Expansion Microcellular Injection-Molded Polypropylene Foams by Adding Long-Chain Branches

Radiation Buildup on Stainless Steel in a Boiling Water Reactor Environment

Inhibitory Effect of High Dietary Zinc on Copper Absorption in Rats

Computer Experiments on Soliton Production for Realizing Laboratory Experiments

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