SINTERED MATERIALS FROM INCINERATOR SECONDARY RESIDUES

B. Dzhantov; B. Ranguelov; E. Karamanova; F. Andreola; L. Barbieri; A. Karamanov

Scholarly record

SINTERED MATERIALS FROM INCINERATOR SECONDARY RESIDUES

B. Dzhantov, B. Ranguelov, E. Karamanova, F. Andreola, L. Barbieri, A. Karamanov

First published: 2010DOI pendingView metrics

Abstract

The possibility to obtain new eco-compatible building materials by milling, pressing and direct sintering of secondary raw materials (SRM) derived from a physical/mechanical treatment of municipal solid waste incinerator (MSWI) bottom ashes is discussed. The chemical compositions and particle size distribution of used SRM press powders were evaluated using XRF analysis and by laser granulometer, respectively. The thermal and densification behaviours were studied by non-isothermal DTA-TG and dilatometric techniques. The degrees of sintering, obtained at different temperatures of heat-treatment in the rage 1020 вЂ“ 1140oC, were defined by measuring the linear shrinkage, the water absorption and the density variation (by gas pycnometer). The formed crystal phases were evaluated with X-ray Diffraction (XRD). The structure of the materials (surfaces and fractures) was observed by Scanning Electron Microscopy (SEM). With respect to the traditional building ceramics the new materials are characterised by totally different micro-structures and phase composition. The analysis of our results highlights also that the studied compositions are characterized by narrow sintering intervals, located between the solidus and liquidus temperatures of the main crystal phases. High crystallinity of obtained specimens, small water absorption and relatively low sintering temperatures can be considered as promising initial results to obtain low-cost building materials with elevate mechanical properties from direct densification of SRM from MSWI ashes

Publication details

Title

SINTERED MATERIALS FROM INCINERATOR SECONDARY RESIDUES

Authors

B. Dzhantov, B. Ranguelov, E. Karamanova, F. Andreola, L. Barbieri, A. Karamanov

Proceedings

10th International Multidisciplinary Scientific GeoConference SGEM2010

Publisher

SGEM Scientific GeoConference

Year

2010

Pages

941-948

SWS Citekey

Dzhantov2010242

ISSN

Not available yet

ISBN

954-91818-1-2

Language

en

Publication type

Conference Paper

Keywords

ceramics crystallization industrial wastes sintering

References4

N. Lapa, R. Barbosa, J. Moráis, B. Mendes, J. M'ehu, J.F. Santos Oliveira, Ecotoxicological assessment of leachates from MSWI bottom ashes, Waste Manage, 22, 2002, 583-593
Rawlings R.D., Wu J.P. & Boccaccini A.R, Glass-Ceramics: Their Production from Wastes-a Review, J. Mat. Sci., 41, 2006, 733-761
Karamanov, A. & Pelino, M., Induced Crystallization Porosity and Properties of Sintered Diopside and Wollastonite Glass-Ceramics, J. European Cer. Soc, 28, 2008, 555-562
Karamanov A, Arrizza L. & Ergul S., Sintered Material From Alkaline Basaltic Tuffs, J. European Cer. Soc, 29, 2009, 595-601

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