Mitsuru Omoto scite author profile

SYNOPSISAliphatic amines were used as decomposer to decompose waste rigid polyurethane and polyisocyanurate foams, and the obtained decomposed products were directly used as curing agent of epoxy resin. Effects of the decomposing condition including amine type, foamdecomposer ratio, and reaction temperature on the decomposition reaction and properties of the decomposed products were investigated. Using amines with low molecular weight could enhance decomposition reaction rate and total amine number and lessen viscosity of the obtained decomposed products. Viscosity of the decomposed products decreased with increase of reaction temperature, but increased with increment of foam-decomposer ratio. Shear strength of adhesives consisting of decomposed products and epoxy resin was measured, and their thermal properties were analyzed. The adhesives could be cured completely over 6OoC and their shear strength enhances with adding coupling agent in the adhesive system. The adhesives have good thermal stability and show satisfactory shear strength with more than 15, 15, 7, and 3 MPa at 25, 60, 100, and 150°C, respectively. The results demonstrate that the obtained adhesive systems can be used as structural adhesive. 0 1995

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Conformation of isolated block copolymer molecules

Tanaka

Omoto

Inagaki

1980

Journal of Macromolecular Science, Part B

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Preparation of polypyrrole–polyurethane composite foam by vapor phase oxidative polymerization

He¹,

Omoto²,

Yamamoto³

et al. 1995

J of Applied Polymer Sci

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SYNOPSISConductive polypyrrole-polyurethane composite foam was prepared by vapor phase polymerization of pyrrole on polyurethane foam using mixtures of FeCl, and Feel3 as oxidants. With increase in the FeC12/FeC13 ratio, the conductivity of the composite foam increased in spite of the decrease in polypyrrole content in the composite foam. Both conductivity and polypyrrole content increased with increase in the oxidant content in polyurethane. The conductivity of the composite foam is also a function of reaction temperature, and lower reaction temperatures were preferable for higher conductivity. The composite foam exhibited tensile strength and elongation comparable to those of pristine polyurethane foam.

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Mitsuru Omoto

Composition and molecular weight distribution of block copolymers

Preparation of epoxy hardeners from waste rigid polyurethane foam and their application

Conformation of isolated block copolymer molecules

Preparation of polypyrrole–polyurethane composite foam by vapor phase oxidative polymerization

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