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Journal of Materials Chemistry

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Hydrotalcite-like anionic clays or layered double hydroxides (LDHs) of the general formula, [MII1-xMIIIx(OH)2]intra[(CH2=CH(CH2)8COO-)xnH2O]inter, with MIII = Al and MII = Co, Ni, Cu, and Zn, have been prepared by the co-precipitation method and used to prepare nanocomposites with poly(methyl methacrylate) (PMMA). One goal of this work was to compare the morphology, thermal, fire and mechanical properties with those of the well known PMMA–montmorillonite system. The thermal properties of these systems are greatly improved relative to the virgin PMMA, with ZnAl2 and CoAl2 being the best systems when 50% mass loss is the point of comparison. NiAl2, on the other hand, is more thermally stable when 10% mass loss was the point of comparison. The mechanical properties, such as Young’s Modulus and elongation, were not significantly impacted by nanocomposite formation. The cone calorimetric results showed that the PMMA–CoAl2 system gives the best reduction (41%) in peak heat release rate (PHRR); this value is significantly larger than that seen for the PMMA–montmorillonite system. Small improvements were observed for the nickel-containing LDH with the same polymer. XRD of the char produced in the cone calorimeter, and after heating to 1000 °C, suggest the formation of a mixture of the spinel and the MII oxide for Zn, Cu and Ni systems while only the spinel was identified in the case of PMMA–CoAl2 systems.


Accepted version. Journal of Materials Chemistry, Vol. 18, No. 26 (2008): 3091-3102. DOI. © 2008 Royal Society of Chemistry. Used with permission.

hossenlopp.chem.jmc.18.2008_supp.pdf (366 kB)
XRD patterns, FT-IR and TGA spectra

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