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Siliceous spicules enhance fracture-resistance and stiffness of pre-colonial Amazonian ceramics

Pottery was a traditional art and technology form in pre-colonial Amazonian civilizations, widely used for cultural expression objects, utensils and as cooking vessels. Abundance and workability of clay made it an excellent choice. However, inferior mechanical properties constrained their functional...

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Published in:	Scientific reports 2015-08, Vol.5 (1), p.13303-13303, Article 13303
Main Authors:	Natalio, Filipe, Corrales, Tomas P., Wanka, Stephanie, Zaslansky, Paul, Kappl, Michael, Lima, Helena Pinto, Butt, Hans-Jürgen, Tremel, Wolfgang
Format:	Article
Language:	English
Subjects:	639/301/54/989 639/301/54/991 639/766/747 Abundance Ceramics Clay Composite materials Cooking Crack propagation Drying Fibers Humanities and Social Sciences Mechanical properties multidisciplinary Science Spicules Utensils
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creator	Natalio, Filipe Corrales, Tomas P. Wanka, Stephanie Zaslansky, Paul Kappl, Michael Lima, Helena Pinto Butt, Hans-Jürgen Tremel, Wolfgang
description	Pottery was a traditional art and technology form in pre-colonial Amazonian civilizations, widely used for cultural expression objects, utensils and as cooking vessels. Abundance and workability of clay made it an excellent choice. However, inferior mechanical properties constrained their functionality and durability. The inclusion of reinforcement particles is a possible route to improve its resistance to mechanical and thermal damage. The Amazonian civilizations incorporated freshwater tree sponge spicules ( cauixí ) into the clay presumably to prevent shrinkage and crack propagation during drying, firing and cooking. Here we show that isolated siliceous spicules are almost defect-free glass fibres with exceptional mechanical stability. After firing, the spicule Young’s modulus increases (from 28 ± 5 GPa to 46 ± 8 GPa) inferring a toughness increment. Laboratory-fabricated ceramic models containing different inclusions (sand, glass-fibres, sponge spicules) show that mutually-oriented siliceous spicule inclusions prevent shrinkage and crack propagation leading to high stiffness clays ( E = 836 ± 3 MPa). Pre-colonial amazonian potters were the first civilization known to employ biological materials to generate composite materials with enhanced fracture resistance and high stiffness in the history of mankind.
doi_str_mv	10.1038/srep13303
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subjects	639/301/54/989 639/301/54/991 639/766/747 Abundance Ceramics Clay Composite materials Cooking Crack propagation Drying Fibers Humanities and Social Sciences Mechanical properties multidisciplinary Science Spicules Utensils
title	Siliceous spicules enhance fracture-resistance and stiffness of pre-colonial Amazonian ceramics
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