Effect of Hydrated Lime on the Properties of Roller Compacted Concrete
محتوى المقالة الرئيسي
الملخص
Roller compacted concrete (RCC) is a concrete of no slump, no reinforcement, no finishing, and compacted using vibratory roller. When compared with conventional concrete, it contains less water content
when compared to traditional concrete. The RCC technique achieves significant time and cost savings during the construction of concrete. This study demonstrates the preparation of RCC slab of (38 ×38× 10) cm
samples by using roller compactor which is manufactured in local markets. The Hydrated lime additive is used to study the mechanical and physical properties of that RCC slab samples. This investigation is divided
into two main stages: The First stage consists of hammer compaction method with two gradation of aggregate, dense and gap graded aggregate, using five percentages of cement content (10, 12, 14, 16, and 18) as a percentage of the total aggregate content. This stage is carried out for selecting the maximum dry density, optimum moisture content, and optimum cement content which is utilized in RCC slab samples
construction, a total of 49 cylinder samples sized (10 cm diameter and 11.6 cm high) are prepared. The Second stage is classified into two sub stages; the first one consists of constructing RCC slab samples using roller compaction, 12% cement as a percentage of total aggregate weight has been used according to the data obtained from first stage, this group presents reference mixes without additives. While the second sub stage presents RCC mix with hydrated lime additive and with the same gradation of mixes compact by hammer compaction method, hydrated lime was implemented as (5, 10, 12, and 15) percentage
as a partial replacement of cement content. Both of physical and mechanical properties of RCC are studied using cores, sawed cubes, and sawed beams obtained from RCC slab samples. The properties studied were porosity, absorption, and compressive strength, splitting tensile strength and flexural strength by using third point loading method. The results show that hydrated lime improved the overall properties of RCC as compared to reference mix. Mixes with 5% lime give the optimum values for most of strength properties. Dense graded mixes with hydrated lime show superior properties as compared to gap graded mixes.
تفاصيل المقالة
كيفية الاقتباس
تواريخ المنشور
المراجع
ACI Committee 211-3R-97, (1997), “Guide for Selecting Proportions for No-Slump Concrete”, ACI Manual of Concrete Practice, pp. (14-21).
Ahmed H.K, (2001), "Factors Influencing the Properties of Roller Compacted Concrete", Ph.D. Thesis, Department of Building and Construction, University of Technology.
ASTM C42/42M (2003), "Standard Test Method for Obtaining and Testing Drilled Cores and Sawed Beams of Concrete", Annual Book of ASTM Standards, Vol. (04.02), West Conshohocken, PA., Issued October.
ASTM C78 (2002), "Standard Test Method for Flexural Strength of Concrete (Using Simple Beam with Third-Point Loading) ", Annual Book of ASTM Standards, Vol. (04.02), West Conshohocken, PA., Issued October.
ASTM C127 (2001), "Standard Test Method for Density, Relative Density (Specific Gravity), and Absorption of Coarse Aggregate ", Annual Book of ASTM Standards, Vol. (04.02), West Conshohocken, PA., Issued October.
ASTM C128 (2001), "Standard Test Method for Density, Relative Density (Specific Gravity), and Absorption of Fine Aggregate ", Annual Book of ASTM Standards, Vol. (04.02), West Conshohocken, PA., Issued October.
ASTM C496 (1996), "Standard Test Method for Splitting Tensile Strength of Cylindrical Concrete Specimens", Annual Book of ASTM Standards, Vol. (04.02), West Conshohocken, PA., Issued October.
ASTM C642 (1997), "Standard Test Method for Density, Absorption, and Voids in Hardened Concrete ", Annual Book of ASTM Standards, West Conshohocken, PA., Issued October.
ASTM D1557 (2002), "Standard Test Methods for Laboratory Compaction Characteristics of Soil Using Modified Effort", Annual Book of ASTM Standards, Vol. (04.08), West Conshohocken, PA., United States.
British Standard B.S. 594, (1961), “Rolled Asphalt-Hot Process”,
British Standard Institution, London. Cited in Sarsam (1988).
British Standard B.S. 1881, (1983), “Method for Determination of Compressive strength of Concrete Cubes”, part 116.
Gupta, B.L., and Gupta, A., (2004), “Concrete Technology”, 3rd Edition, Delhi, 27th, February, 2004.
Hansen K.D., (1996), “Roller Compacted Concrete: A Civil Engineering Innovation”, Concrete International, March, (1996), pp. (49- 53).
Iraqi Standard Specification, No.5, (1984),“The Portland Cement”.
Rached, M., Moya, M.D. and Fowler, D.W., (2009), “Utilizing Aggregates Characteristics to Minimize Cement Content in Portland Cement
Concrete”, 2nd, June, 2009.
Rodrigues, A.F., (2002), “RCC-Materials Availability- Properties and Practices in Different Regions”, Proceedings of the 2002 International
Conference on Roller Compacted Concrete, Jordan University of Science and Technology, pp. (42-67).
Sarsam, S.I., (1988), “Construction of Additional Slow Lane for Mosul-Duhok Highway Using RCCP”, Technical report; Ashour Constructing Company-Ministry of Housing and Construction.
Sarsam S.I., (2002), “Evaluation of Roller Compacted Concrete pavement Properties”
Engineering and Development, Scientific Journal of Almustansiria University, Vol. (6), No. (1),March, 2002, pp. (59-74).
Piggott, R.W., (1999), “Roller Compacted Concrete Pavement-A study of Long Term Performance”, Portland Cement Association. SORB, (2004) “Standard specification for roads and bridges” Ministry of Housing and construction, 2004, Iraq.
Vorbieff, G., and Whitaker, C., (2003), “State of the Art of RCC Pavements in Australia”, CIA Conference, July, 2003, pp. (1-9). www.concreteroads.net/rcc/RCCpaperJuly