Study of Heat Treatment Parameters in Obtaining Glassceramic Materials with the Addition of Industrial Wastes

Cláudia Terezinha Kniess; G.J.M. Martins; P.B. Prates; Humberto Gracher Riella; Jonas V. Matsinhe; Jose Carmino G. Junior

doi:10.4028/www.scientific.net/MSF.805.598

Paper Titles

Analysis of the Y-TZP Ceramic Substucture in Blasting with Aluminum Oxide before and after Sintering
p.576

Use of Natural Kaolinite Clay as an Adsorbent to Remove PB(II), CD(II), and CU(II) from Aqueous Solution
p.581

Characterization of Elephant Grass Ash as a Potential Clay Ceramic Addition
p.585

Reuse of Waste Foundry Sand from its Interaction with the Bonding Agent Sodium Silicate
p.591

Study of Heat Treatment Parameters in Obtaining Glassceramic Materials with the Addition of Industrial Wastes
p.598

Work and Dedication Expressing the Beauty of Glass in Decoration
p.604

Influence of Two-Step Sintering on Ceramic Nanocomposites Microstructure
p.609

The Use of Robot with Force Control in Machining of Green Ceramics
p.615

Microstructural Evolution of Alumina-Zirconia Nanocomposites
p.621

HomeMaterials Science ForumMaterials Science Forum Vol. 805Study of Heat Treatment Parameters in Obtaining...

Study of Heat Treatment Parameters in Obtaining Glassceramic Materials with the Addition of Industrial Wastes

Abstract:

The production of materials from crystallization of glass, called glassceramic, have proved interesting by the possibility of development of different microstructures, with reduced grain size and the presence of residual amorphous phase in different quantities. The method that uses the differential thermal analysis (DTA) provides research on the material properties over a wide temperature range, it ́s widely applied to crystallization processes of glassceramic materials. Within this context, this paper aims to study the kinetics of nucleation and crystal growth in glassceramic materials in the system SiO₂-Al₂O₃-Li₂O, obtained with the addition of mineral coal bottom ash as source of aluminosilicates, through the technique of differential thermal analysis.

You might also be interested in these eBooks

A Special Issue in Memory of Dr. Lucio Salgado

View Preview

Info:

Periodical:

Materials Science Forum (Volume 805)

Pages:

598-603

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.805.598

Citation:

Cite this paper

Online since:

September 2014

Authors:

Cláudia Terezinha Kniess, G.J.M. Martins, P.B. Prates, Humberto Gracher Riella, Jonas V. Matsinhe, Jose Carmino G. Junior

Keywords:

Coal Bottom Ash, Differential Thermal Analysis, Glassceramic, Thermal Treatment

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] F.M.F. Nascimento, R.M.G. Mendonça, M.I.F. Macedo and P.S.M. Soares: I Congresso Brasileiro De Mina A Ceu Aberto & II Congresso Brasileiro De Mina Subterranea. Belo Horizonte, 11 a 13 de Setembro 2002. Proceeding.. Belo Horizonte 2002. (MG).

DOI: 10.17648/galoa-cbee-6-30656

Google Scholar

[2] D.A. Fungaro And J.C. Izidoro: Revista Química Nova Vol. 29 (4) (2006), p.735.

Google Scholar

[3] C.T. Kniess, P. B Prates, J. C. Lima, N.C. Kuhnen And H Riella: Journal of Non-Crystalline Solids Vol. 353 (2007), p.4819.

DOI: 10.1016/j.jnoncrysol.2007.06.047

Google Scholar

[4] Z. Strnad: Glass-ceramic materials: glass science and technology. (Elsevier Science Publishing Company New York, 1986).

Google Scholar

[5] C.T. Kniess, K Milanez, C. Guarido, F. Checchinato, C. Lopes, A. Novais, R. Machado, N.C. Kuhnen And H. Riella: Acta Ambiental Catarinense Vol. 1 (2002), p.29.

Google Scholar

[6] C.T. Kniess, C D.G. Borba, E. Neves, H. Riella and N.C. Kuhnen: Interceram Vol. 51 (2002), p.140.

Google Scholar

[7] A. Marotta, A. Buri And F. Branda: Journal of Materials Science Vol. 16 (1981), p.341.

Google Scholar

[8] C.T. KNIESS, C.D.G. BORBA, E. NEVES, N.C. KUHNEN and H. RIELLA: Química Nova Vol. 25 (2002), p.926.

Google Scholar

[9] A. Marotta, A. Buri And F. Saiello: Journal of Materials Science Vol. 17 (1982), p.105.

Google Scholar

[10] E. Neves, E. Poffo And H. G. Riella: Química Nova Vol. 21 (4) (1998).

Google Scholar

[11] Powder Diffraction File Search Manual (JCPDS). (International Centre for Diffraction Data. Pennsylvania, U.S. A, 1981).

Google Scholar

[12] A.K. Varshenya: Fundamentals of Inorganic Glasses. (Academic Press New York:, 1994).

Google Scholar

[13] M.A. Magella: Desenvolvimento de materiais vítreos e vitrocerâmicos a partir de escórias da produção de aços inoxidáveis Mestrado (Dissertação). Florianópolis, 2010. Universidade Federal de Santa Catarina (UFSC/EM). (SC).

DOI: 10.5196/physicae.v11i11.311

Google Scholar