In-Plane Modulus of Singular 2:1 Clay Lamellae Applying a Simple Wrinkling Technique

Knowledge of the mechanical properties of singular clay lamellae is of crucial importance for the optimization of clay–polymer nanocomposites. On the basis of controlled stress release, singular 2:1 clay lamellae show regular wrinkles on a deformable substrate. A subsequent two-dimensional Fourier t...

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Veröffentlicht in:	ACS applied materials & interfaces 2013-06, Vol.5 (12), p.5851-5855
Hauptverfasser:	Kunz, Daniel A, Erath, Johann, Kluge, Daniel, Thurn, Herbert, Putz, Bernd, Fery, Andreas, Breu, Josef
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creator	Kunz, Daniel A Erath, Johann Kluge, Daniel Thurn, Herbert Putz, Bernd Fery, Andreas Breu, Josef
description	Knowledge of the mechanical properties of singular clay lamellae is of crucial importance for the optimization of clay–polymer nanocomposites. On the basis of controlled stress release, singular 2:1 clay lamellae show regular wrinkles on a deformable substrate. A subsequent two-dimensional Fourier transformation gives an in-plane modulus of the clay lamella of approximately 150 GPa. Only readily-available topographical atomic force microscopy is required for analysis rendering that fast and facile procedure generally applicable for nanoplatelet characterization.
doi_str_mv	10.1021/am4015204
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title	In-Plane Modulus of Singular 2:1 Clay Lamellae Applying a Simple Wrinkling Technique
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