Qiuju Wu scite author profile

A high-strength elastomeric nanocomposite has successfully been prepared by dispersing microcrystalline cellulose in a polyurethane matrix. The resulting nanocomposites show increased strain-to-failure in addition to increased stiffness and strength compared to the unfilled polyurethane. The optimal composite contained 5 wt % cellulose. The average true strength for this composition was 257 MPa, compared with 39 MPa for the neat polyurethane, and showed the highest strain-to-failure. The improvements of stiffness, strength, as well as strain-to-failure are believed to be due to good interaction, by both covalent and hydrogen bonds, between the polyurethane and the cellulose nanofibrils.

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Synthesis and characterization of PAn/clay nanocomposite with extended chain conformation of polyaniline

Zou

Zhang

et al. 2000

Polymer

200

130

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FT-IR spectroscopic study of hydrogen bonding in PA6/clay nanocomposites

Liu

Berglund

2002

Polymer

147

106

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Polymorphism in polyamide 66/clay nanocomposites

Liu

Berglund

2002

Polymer

158

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Qiuju Wu

PP/clay nanocomposites prepared by grafting-melt intercalation

A High Strength Nanocomposite Based on Microcrystalline Cellulose and Polyurethane

Synthesis and characterization of PAn/clay nanocomposite with extended chain conformation of polyaniline

FT-IR spectroscopic study of hydrogen bonding in PA6/clay nanocomposites

Polymorphism in polyamide 66/clay nanocomposites

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