Mechanical Characterisation of Polyurethane/Clay Nanocomposites

Polyurethane/clay nanocomposites have been synthesised from renewable sources. A polyether polyol was obtained by a method involving the synthesis of palm oil-based oleic acid from glycerol. This was then used in the production of a polyurethane by reaction with an isocyanate. Dodecylbenzene sulfoni...

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Bibliographic Details
Published in:Polymers & polymer composites 2007-01, Vol.15 (8), p.647-652
Main Authors: RIHAYAT, T, SAARI, M, HILMI MAHMOOD, M, WAN YUNUS, W. M. Z, SURAYA, A. R, DAHLAN, K. Z. H. M, SAPUAN, S. M
Format: Article
Language:English
Subjects:
Applied sciences
Clay
Composite materials
Composites
Exact sciences and technology
Forms of application and semi-finished materials
Mechanical properties
Nanoparticles
Polymer industry, paints, wood
Polyurethane
Polyurethanes
Technology of polymers
Vegetable oils
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Summary:Polyurethane/clay nanocomposites have been synthesised from renewable sources. A polyether polyol was obtained by a method involving the synthesis of palm oil-based oleic acid from glycerol. This was then used in the production of a polyurethane by reaction with an isocyanate. Dodecylbenzene sulfonic acid (DBSA) was used as catalyst and emulsifier. The unmodified clay (kunipia-F) was treated with cetyltrimethyl ammonium bromide (to form “CTAB-mont”) and octadodecylamine (to form “ODA-mont”). The d-spacing in CTAB-mont and ODA-mont were 1.571 nm and 1.798 nm respectively, i.e. larger than that of the original “pure-mont” (1.142 nm). The organoclay was intercalated in the polyurethane, as confirmed by a wide angle x-ray diffraction (WAXD) pattern. The mechanical properties (including the dynamic mechanical properties) of pure polyurethane (PU) and PU/clay nanocomposites were measured. The results indicate that 1–5 wt.% of organoclay gave the most significant improvements in tensile properties and in glass transition temperature.
ISSN:0967-3911
1478-2391
DOI:10.1177/096739110701500808