In Situ Observation of Nanograin Rotation and Deformation in Nacre
Document Type
Article
Abstract
Nacre is a natural nanocomposite material with superior mechanical strength and toughness. What roles do the nanoscale structures play in the inelasticity and toughening of nacre? Can we learn from this to produce nacre-like nanocomposites? Here we report in situ dynamic atomic force microscope observations of nacre with aragonite nanograins (nanoparticles) of an average grain size of 32 nm, which show that nanograin rotation and deformation are the two prominent mechanisms contributing to energy dissipation in nacre. The biopolymer spacing between the nanograins facilitates the grain rotation process. The aragonite nanograins in nacre are not brittle but deformable.
Publication Info
Published in Nano Letters, Volume 6, Issue 10, 2006, pages 2301-2304.
(c) American Chemical Society, 2006.
Li, X., Xu, Z-H., & Wang, R. (11 October 2006). In Situ Observation of Nanograin Rotation and Deformation in Nacre. Nano Letters, 6 (10), 2301 – 2304. http://dx.doi.org/10.1021/nl061775u
Rights
(c) American Chemical Society, 2006.
Li, X., Xu, Z-H., & Wang, R. (11 October 2006). In Situ Observation of Nanograin Rotation and Deformation in Nacre. Nano Letters, 6 (10), 2301 – 2304. http://dx.doi.org/10.1021/nl061775u