abstract
This work reports the influence of pore forming agents, their incorporation content and particle size distribution on the bi-layered ceramics porosity, mechanical resistance and thermal conductivity. The results demonstrate that the porosity level on the hi-layered ceramics bottom layer can be easily controlled by the porogen amount, while porogen particle size affects both the number and size distribution of the pores. Two different pore forming agents were evaluated, namely polypropylene (PP) and polymethyl methacrylate (PMMA). The nature of the pore forming agent, however, did not affect the hi-layered ceramics' properties. The incorporation of porosity into the hi-layered ceramics promotes thermal conductivity attenuation (up to 79%) in comparison with conventional porcelain stoneware ceramics, yet maintaining suitable mechanical strength. Thermal conductivity decrease is adjustable as a function of the volume and size of the generated pores, thus enabling materials to be tailored for the envisaged applications. (C) 2014 Elsevier Ltd and Techna Group S.r.l. All rights reserved.
keywords
SILICON-CARBIDE CERAMICS; POROUS ALUMINA CERAMICS; PZT CERAMICS; STARCH; POLYPROPYLENE; MICROSTRUCTURE; DECOMPOSITION; DEGRADATION; POLYETHYLENE; FABRICATION
subject category
Materials Science
authors
Novais, RM; Seabra, MP; Labrincha, JA
our authors
acknowledgements
The authors acknowledge the financial support from Portuguese Innovation Agency (Adi) through project ThermoCer, to CICECO (PEst C/CTM/LA0011/2013) and RNME - Pole University of Aveiro (FCT Project REDE/1509/RME/2005) for instrument use, scientific and technical assistance. The authors acknowledge CINCA for providing the spray-dried powder, and the assistance of Dr. R.C. Pullar with editing English language in this paper.