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EFFECTS OF POST-CONSUMER TYRE RUBBER ON THE MECHANICAL PROPERTIES OF MORTARS
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Toma I.O., Covatariu D., Toma A.M., Taranu G. & Budescu M. Strength and elastic properties of mortars with various percentages of environmentally sustainable mineral binder, Construction and Building Materials, vol. 43, pp 348-361, 2013.
The European Tyre Recycling Association (ETRA). Introduction to tyre recycling, 20pp, 2010.
Siddique R. & Naik T.R. Properties of concrete containing scrap-tire rubber – an overview, Waste Management, vol. 24/no. 6, pp 563–569, 2004.
Aiello M.A. & Leuzzi F. Waste tyre rubberized concrete: Properties at fresh and hardened state, Waste Management, vol. 30/no. 8-9, pp 1696-1704, 2009.
Neocleous K., Tlemat H. & Pilakoutas K. Design issues for concrete reinforced with steel fibres including fibres recovered from used tyres, Journal of Materials in Civil Engineering, vol. 18/no.5 , 677–685, 2006.
Ganjian E., Khorami M. & Maghsoudi A.A. Scrap-tyre-rubber replacement for aggregate and filler in concrete, Construction and Building Materials, vol. 23/no.5, pp 1828-1836, 2009.
Son K.S, Hajirasouliha I. & Pilakoutas K. Strength and deformability of waste tyre rubber-filled reinforced concrete columns, Construction and Building Materials, vol. 25/no.1, pp 218-226, 2011.
Khaloo A.R., Dehestani M. & Rahmatabadi P. Mechanical properties of concrete containing a high volume of tire–rubber particles, Waste Management, vol .28, pp 2471- 2482, 2008.
Pacheco-Torgal F., Ding Y. & Jalali S. Properties and durability of concrete containing polymeric wastes (tyre rubber and polyethylene terephthalate bottles): An overview, Construction and Building Materials, vol. 30, pp 714-724, 2012.
SR EN 196-1. Methods for testing of cementitious materials. Part 1: The determination of the mechanical properties, Romanian Standard Association, 2006 (in Romanian).
Segre N., Joekes I., Galves A.D. & Rodrigues J.A. Rubber-mortar composites: Effect of composition on properties, Journal of Materials Science, vol. 39, pp 3319- 3327, 2004.
Issa C.A. & Salem G. Utilization of recycled crumb rubber as fine aggregates in concrete mix design , Construction and Building Materials, vol. 42, pp 48-52, 2013.
Liu F., Zheng W., Li L., Feng W. & Ning G. Mechanical and fatigue performance of rubber concrete, Construction and Building Materials, vol. 47, pp 711-719, 2013.
Toma I.O., Covatariu D., Toma A.M., Taranu G. & Budescu M. Strength and elastic properties of mortars with various percentages of environmentally sustainable mineral binder, Construction and Building Materials, vol. 43, pp 348-361, 2013.
The European Tyre Recycling Association (ETRA). Introduction to tyre recycling, 20pp, 2010.
Siddique R. & Naik T.R. Properties of concrete containing scrap-tire rubber – an overview, Waste Management, vol. 24/no. 6, pp 563–569, 2004.
Aiello M.A. & Leuzzi F. Waste tyre rubberized concrete: Properties at fresh and hardened state, Waste Management, vol. 30/no. 8-9, pp 1696-1704, 2009.
Neocleous K., Tlemat H. & Pilakoutas K. Design issues for concrete reinforced with steel fibres including fibres recovered from used tyres, Journal of Materials in Civil Engineering, vol. 18/no.5 , 677–685, 2006.
Ganjian E., Khorami M. & Maghsoudi A.A. Scrap-tyre-rubber replacement for aggregate and filler in concrete, Construction and Building Materials, vol. 23/no.5, pp 1828-1836, 2009.
Son K.S, Hajirasouliha I. & Pilakoutas K. Strength and deformability of waste tyre rubber-filled reinforced concrete columns, Construction and Building Materials, vol. 25/no.1, pp 218-226, 2011.
Khaloo A.R., Dehestani M. & Rahmatabadi P. Mechanical properties of concrete containing a high volume of tire–rubber particles, Waste Management, vol .28, pp 2471- 2482, 2008.
Pacheco-Torgal F., Ding Y. & Jalali S. Properties and durability of concrete containing polymeric wastes (tyre rubber and polyethylene terephthalate bottles): An overview, Construction and Building Materials, vol. 30, pp 714-724, 2012.
SR EN 196-1. Methods for testing of cementitious materials. Part 1: The determination of the mechanical properties, Romanian Standard Association, 2006 (in Romanian).
Segre N., Joekes I., Galves A.D. & Rodrigues J.A. Rubber-mortar composites: Effect of composition on properties, Journal of Materials Science, vol. 39, pp 3319- 3327, 2004.
Issa C.A. & Salem G. Utilization of recycled crumb rubber as fine aggregates in concrete mix design , Construction and Building Materials, vol. 42, pp 48-52, 2013.
Liu F., Zheng W., Li L., Feng W. & Ning G. Mechanical and fatigue performance of rubber concrete, Construction and Building Materials, vol. 47, pp 711-719, 2013.
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