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Tough alumina/polymer layered composites with high ceramic content
Publikationstyp
Journal Article
Date Issued
2014-12-31
Sprache
English
Herausgeber*innen
TORE-URI
Volume
98
Issue
4
Start Page
1285
End Page
1291
Citation
Journal of the American Ceramic Society 4 (98): 1285-1291 (2015)
Publisher DOI
Scopus ID
Publisher
Wiley-Blackwell
Ceramic composites found in nature, such as bone, nacre, and sponge spicule, often provide an effective resolution to a wellknown conflict between materials' strength and toughness. This arises, on the one hand, from their high ceramic content that ensures high strength of the material. On the other hand, various pathways are provided for stress dissipation, and thus toughness, due to their intricate hierarchical architectures. Such pathways include crack bridging, crack deflection, and delamination in the case of layered structures. On the basis of these inspiring ideas, we attempted here to create simultaneously strong and tough laminated alumina composite with high ceramic content. Composites were prepared from highgrade commercial alumina with spin-coated interlayers of ductile polymers (PMMA and PVA). The specimens' ultimate properties (strength, fracture toughness, and work of fracture) were measured by a four-point bending method. In some cases, fracture toughness of the composites was increased by up to an order of magnitude, reminiscent of the natural layered composites. It is proposed that this increase may be attributed to an interlocking mechanism, often encountered in biological composites. The significance of sample architecture and the role of the interfacial and bulk properties of the interlayer material are discussed.
DDC Class
530: Physik
600: Technik
More Funding Information
Supported by the Minerva Foundation with funding from the Federal German Ministry for Education and Research. It was also made possible in part by the generosity of the Harold Perlman family.