performance of environmentally friendly fiber concrete in concrete pavement

Authors
M. ahmadi
A. hassani
Abstract
Nowadays the use of recycled materials in the industry is increasing. An example of this is production of environmentally friendly green concrete. So far, various studies regarding the use of concrete debris from demolished concrete as aggregate in concrete have been utilized. The study showed that in addition of crushed concrete, brick and other materials such as, small ceramic rubble and other debris are present. The current study investigates the use of recycled materials resulting from construction debris as aggregate in concrete. Steel fibers recycled from old car tires are used to reinforce concrete and ordinary concrete. Samples with different percentages of recycled fibers and aggregates were made and tests such as compressive strength, tensile strength, flexural bending strength were adopted. Test results showed that the use of this type of fiber concrete as a structural concrete is acceptable. Yield line theory was used to investigate the role of steel recycled fiber and recycled aggregate concrete in slab design thickness. The design method showed that the addition of steel recycled fibers in the concrete reduces the thickness of slabs approximately by 20%. Nowadays the use of recycled materials in the industry is increasing. An example of this is production of environmentally friendly green concrete. So far, various studies regarding the use of concrete debris from demolished concrete as aggregate in concrete have been utilized. The study showed that in addition of crushed concrete, brick and other materials such as, small ceramic rubble and other debris are present. The current study investigates the use of recycled materials resulting from construction debris as aggregate in concrete. Steel fibers recycled from old car tires are used to reinforce concrete and ordinary concrete. Samples with different percentages of recycled fibers and aggregates were made and tests such as compressive strength, tensile strength, flexural bending strength were adopted. Test results showed that the use of this type of fiber concrete as a structural concrete is acceptable. Yield line theory was used to investigate the role of steel recycled fiber and recycled aggregate concrete in slab design thickness. The design method showed that the addition of steel recycled fibers in the concrete reduces the thickness of slabs approximately by 20%. Nowadays the use of recycled materials in the industry is increasing. An example of this is production of environmentally friendly green concrete. So far, various studies regarding the use of concrete debris from demolished concrete as aggregate in concrete have been utilized. The study showed that in addition of crushed concrete, brick and other materials such as, small ceramic rubble and other debris are present. The current study investigates the use of recycled materials resulting from construction debris as aggregate in concrete. Steel fibers recycled from old car tires are used to reinforce concrete and ordinary concrete. Samples with different percentages of recycled fibers and aggregates were made and tests such as compressive strength, tensile strength, flexural bending strength were adopted.

Keywords

].Frondition, K. and Yannas, S. “Economics of Concrete Recycling in United States”, Advanced Research institute problems in the recycling concrete, France , Nov.25-28, 1980, pp. 163-168.
[2].Hanse, T.C. “EditorRecycling of demolished  concrete and Masonry”, RILEM (The international:union: of testing and Research laboratories for materials and structures), Reports, 1992.
[3].ماجدی، محمد حسن و  تابش، حسن "مطالعات مقدماتی بازیافت آوارهای ساختمانی (ایستگاه آبعلی)"، مرکز تحقیقات راه مسکن وشهرسازی، 1386.
[4].Wagih, A.M., El-Karmoty, H.Z., Ebid, M. and Okba, S.H. “Recycled construction and demolition concrete waste as aggregate for structural concrete”, Housing and Building National Research Center, Vol. 9, 2013, pp. 193-200.
[5].مقیمی، محمود، شفیق، پیام، برنجیان، جواد، نعمتی، کامران "بررسی تجربی تاثیر استفاده از میکروسیلیس و فوق روان کننده بر بعضی خواص مکانیکی بتن بازیافتی ساخته شده از خرده بتن"، نشریه مهندسی عمران دانشگاه فردوسی مشهد، سال بیست ویکم، شماره دو،1389.
[6].Choi, W.C. and Yun, W.C. “Compressive behavior of reinforced concrete columns with recycled aggregate under uniaxial loading”, Engineering Structure, Vol. 41, 2012, pp. 285–293.
[7].Rao akash [et al.] “Use of aggregates from recycled construction and demolition waste in concrete”, Resources Conservation and Recycling, Vol. 50, 2007. pp. 71-78.
[8].Katz A. “Properties of concrete made with recycled aggregate from partially hydrated old concrete”. Cement  Concrete Research, Vol. 33, 2003. pp. 703-711.
[9].Richardson, A., Coventry, k., Bacon, J. “Freeze/thaw durability of concrete with recycled demolition aggregate compared to virgin aggregate concrete”, Cleaner Production, Vol. 19, 2011. pp. 272-277.
[10]. Radonjanin, V., Malešev, M., Marinkovic´, S., Al Malty, A.E.S. “Green recycled aggregate concrete”, Construction and Building Materials, Vol. 47, 2013. pp. 1503-1511.
[11].نیلی، محمود و نظری منفرد، ابراهیم"تاثیر مقاومت بتن مادر ، دوده سیلیسی والیاف فولادی بر مشخصات مکانیکی بتن های بازیافتی"، چهارمین کنفرانس ملی سالیانه بتن ایران،تهران،1391.
[12].Gonza´ lez-Fonteboa B, Martı´nez-Abella F. “Concretes with aggregates from demolition waste and silica fume. materials and mechanical properties”, Building and Enviroment, Vol.43, 2008, pp.3357-3363.
[13]. Umadevi, C.V, Gowda, M.R. “Study on Strength Characteristics of Recycled Aggregate
Concrete using Polypropylene Fiber”, Civil Engineering Technology and Research, Vol. 2, No. 1,2014, pp. 259-266.
[14].Heeralal, M., Rathish Kumar, P. andRoa, Y.V. “Flexural Fatigue characterization of Steel Fiber Reinforced Recycled Concrete (SFRRAC)”, Architecture and Civil Engineering, Vol. 7, 2009, pp. 19-33.
[15].Prasad, M.L.V., Kumar, R. “Mechanical Propertis of fiber Reinforced Concretes Produced from Building Demolished Waste”, Environmental Researh And Development, Vol. 2 No. 2, 2007, pp.180-187
[16].Awchat, G.D. and Kanhe, N.M. “Experimental Studies on Polymer Modified Steel Fibre Reinforced Recycled Aggregate Concrete”, International Journal of Application or Innovation in Engineering & Management, Vol. 2, 2013, pp.126-134.
[17].Vytlacilova, V. “Behaviour of the Sustainable Fiber Reinforced Concrete with Recycled Aggregate after Loading”, Mathematical Methods and Techniques in Engineering and Environmental Science, Vol. 2 No. 2, 2010, pp.299-304.
[18].صدرممتازی، علی، طهمورثی، محمد هادی و نصرتی، حسن "ارزیابی خصوصیات بتن الیافی حاوی سنگدانه­های بازیافتی بتنی با استفاده از روش­های غیر مخرب"، مجله تحقیقات بتن، سال ششم، شماره اول،1393، ص 85-74.
[19]. Jagannadha Rao, K., Ahmed Khan, T.  “Suitabiltiy of Glass Fibers in High Strenght Recycled Aggregate Concrete-an Experimental Investigation”, Civil Engineering(Building and Housing), Vol .10, No.6, 2009, pp .681-689.
[20]. Aiello, M.A.,  Leuzzi, F., Centonze, G.  Maffezzoli, A.  “Use of steel fibres recovered from waste tyres as reinforcement in concrete:
Pull-out behaviour, compressive and flexural strength”, Waste Management, Vol.29, 2009, pp.1960-1970.
[21]. Papakonstantinou, C.G.,  Tobolski, M.C. “Use of waste tire steel beads in Portland cement concrete”, Cement and Concrete Research, Vol.36, 2006, pp.1686-1691.
[22].صفرنیا کپته ، تقی"تاثیر الیاف فلزی بازیافت شده از لاستیک خودرو بر خواص مکانیکی بتن غلتکی"، دانشگاه تربیت مدرس، دانشکده عمران، پایان نامه کارشناسی ارشد، زمستان 1391.
[23]. Altoubat, S.A.,  Roesler, J.R., Lange, D.A., Rieder, K.A. “Simplified method for concrete pavement design with discrete structural fibers”, Construction and Building Materials, Vol.22, 2008, pp.384-393.
[24].Soutsos, M.N [et al.]. “Flexural performance of fibre reinforced concrete made with steel and synthetic fibres”, Construction and Building Materials, Vol.36, 2012, pp.704-710
Modares Civil Engineering journal
Volume 16, Issue 1
March and April 2016
Pages 179-188