Effect of Temperature of Exposure on Properties of Cement Mortar with MSWI Bottom Ash
Effect of high temperature exposure on properties of cement mortar containing municipal solid waste incineration (MSWI) bottom ash as partial natural aggregate replacement is analyzed in the paper. The measurements of mechanical properties, bulk density, matrix density, total open porosity, sorption and desorption isotherms are done on samples exposed to the temperatures of 20°C to 1000°C. TGA analysis is performed as well. Finally, the studied samples are analyzed by IR spectroscopy in order to evaluate TGA data.
[1] G. Tchobanoglous, H. Theisen, S. Vigil, Integrated solid waste management engineering principles and management issues. McGraw-Hill, 1993.
[2] F. Zhu, Technological Development of an Effective Recycling System for Fly Ash from Municipal Solid Waste Incinerator to be Raw Material in Cement Industry. Kyoto University, 2008.
[3] M. Keppert, Z. Pavlik, V. Tydlitat, P. Volfova, S. §varcova, M. Syc, R. Cerny, "Properties of municipal solid waste incineration ashes with respect to their separation temperatue", Waste Manag. Res., vol. 30 pp. 1041-1048, 2012.
[4] J. Pera, L. Coutaz, J. Ambroise, M. Chababbet, "Use of incinerator bottom ash in concrete", Cem. Concr. Res., vol. 27, pp. 1-5, 1997.
[5] L. Bertolini, M. Carsana, D. Cassago, A. Q. Curzio, M. Collepardi, "MSWI ashes as mineral additions in concrete", Cem. Concr. Res., vol. 34, pp. 1899-1906, 2004.
[6] R. Cioffi, F. Colangelo, F. Montagnaro, L. Santoro, "Manufacture of artificial aggregate using MSWI bottom ash", Waste Manag., vol. 31, pp. 281-288, 2011.
[7] H. A. Razak, S. Naganathan, S. N. A. Hamid, “Performance appraisal of
industrial waste incineration bottom ash as controlled low-strength
material”,J. Hazard. Mat., vol. 172, pp. 862-867, 2009.
[8] M. Pavlíková, Z. Pavlík, M. Keppert, R. Černý, “Salt transport and
storage parameters of renovation plasters and their possible effects on
restored buildings' walls”, Const. Build. Mat., vol. 25, pp. 1205-1212,
2011.
[9] M. Jiřičková, Application of TDR Microprobes, Mini-tensiometry, and
Minihygrotmery to the Determination of Moisture Transport and
Moisture Storage Parameters of Building Materials, CTU Press, Prague,
2004.
[10] ČSN EN 12390-5, Testing of hardened concrete – Part 5: Bending
strength. Czech Standardization Institute, Prague, 2007.
[11] ČSN EN 12390-3, Testing of hardened concrete – Part 3: Compressive
strength. Czech Standardization Institute, Prague, 2007.
[12] Z. Pavlík, J. Žumár, I. Medveď, R. Černý, “Water vapor adsorption in
porous building materials: experimental measurement and theoretical
analysis”, Transport Porous Med., vol. 91, pp. 939-954, 2012.
[13] R. Černý (ed.), Complex System of Methods for Directed Design and
Assessment of Functional Properties of Building Materials: Assessment
and Synthesis of Analytical Data and Construction of the System. Czech
Technical University in Prague, Prague, 2010.
[14] G. Villian, M. Thiery, G. Platret, “Measurement methods of carbonation
profiles in concrete: Thermogravimetry, chemical analysis and
gammadensimetry”, Cem. Concr. Res., vol. 37, pp. 1182-1192, 2007.
[1] G. Tchobanoglous, H. Theisen, S. Vigil, Integrated solid waste management engineering principles and management issues. McGraw-Hill, 1993.
[2] F. Zhu, Technological Development of an Effective Recycling System for Fly Ash from Municipal Solid Waste Incinerator to be Raw Material in Cement Industry. Kyoto University, 2008.
[3] M. Keppert, Z. Pavlik, V. Tydlitat, P. Volfova, S. §varcova, M. Syc, R. Cerny, "Properties of municipal solid waste incineration ashes with respect to their separation temperatue", Waste Manag. Res., vol. 30 pp. 1041-1048, 2012.
[4] J. Pera, L. Coutaz, J. Ambroise, M. Chababbet, "Use of incinerator bottom ash in concrete", Cem. Concr. Res., vol. 27, pp. 1-5, 1997.
[5] L. Bertolini, M. Carsana, D. Cassago, A. Q. Curzio, M. Collepardi, "MSWI ashes as mineral additions in concrete", Cem. Concr. Res., vol. 34, pp. 1899-1906, 2004.
[6] R. Cioffi, F. Colangelo, F. Montagnaro, L. Santoro, "Manufacture of artificial aggregate using MSWI bottom ash", Waste Manag., vol. 31, pp. 281-288, 2011.
[7] H. A. Razak, S. Naganathan, S. N. A. Hamid, “Performance appraisal of
industrial waste incineration bottom ash as controlled low-strength
material”,J. Hazard. Mat., vol. 172, pp. 862-867, 2009.
[8] M. Pavlíková, Z. Pavlík, M. Keppert, R. Černý, “Salt transport and
storage parameters of renovation plasters and their possible effects on
restored buildings' walls”, Const. Build. Mat., vol. 25, pp. 1205-1212,
2011.
[9] M. Jiřičková, Application of TDR Microprobes, Mini-tensiometry, and
Minihygrotmery to the Determination of Moisture Transport and
Moisture Storage Parameters of Building Materials, CTU Press, Prague,
2004.
[10] ČSN EN 12390-5, Testing of hardened concrete – Part 5: Bending
strength. Czech Standardization Institute, Prague, 2007.
[11] ČSN EN 12390-3, Testing of hardened concrete – Part 3: Compressive
strength. Czech Standardization Institute, Prague, 2007.
[12] Z. Pavlík, J. Žumár, I. Medveď, R. Černý, “Water vapor adsorption in
porous building materials: experimental measurement and theoretical
analysis”, Transport Porous Med., vol. 91, pp. 939-954, 2012.
[13] R. Černý (ed.), Complex System of Methods for Directed Design and
Assessment of Functional Properties of Building Materials: Assessment
and Synthesis of Analytical Data and Construction of the System. Czech
Technical University in Prague, Prague, 2010.
[14] G. Villian, M. Thiery, G. Platret, “Measurement methods of carbonation
profiles in concrete: Thermogravimetry, chemical analysis and
gammadensimetry”, Cem. Concr. Res., vol. 37, pp. 1182-1192, 2007.
@article{"International Journal of Architectural, Civil and Construction Sciences:55214", author = "Z. Pavlík and M. Keppert and J. Žumár and M. Pavlíková and A. Trník and R. Černý", title = "Effect of Temperature of Exposure on Properties of Cement Mortar with MSWI Bottom Ash", abstract = "Effect of high temperature exposure on properties of cement mortar containing municipal solid waste incineration (MSWI) bottom ash as partial natural aggregate replacement is analyzed in the paper. The measurements of mechanical properties, bulk density, matrix density, total open porosity, sorption and desorption isotherms are done on samples exposed to the temperatures of 20°C to 1000°C. TGA analysis is performed as well. Finally, the studied samples are analyzed by IR spectroscopy in order to evaluate TGA data.
", keywords = "Cement mortar, high temperature exposure, MSWI bottom ash, natural aggregate replacement, mechanical properties", volume = "7", number = "6", pages = "449-6", }
