Experimental Study of Effect of Part Replacement of Concrete Mix Ingredients on Specific Heat of Concrete

Navneet Raheja*, Nitin Gupta**
* Engineer, Shire of Kalamunda, WA (AUS), Department of Civil Engineering, Guru Nanak Dev Engineering College Ludhiana.
** Development Engineer, Wyndham City Council VIC (AUS).
Periodicity:September - November'2012
DOI : https://doi.org/10.26634/jste.1.3.2021

Abstract

With the rise in global warming and increasing environmental imbalances, it is becoming essential to find a viable alternative to replace the conventional concrete mix ingredients. The aim of this research was to check the use of waste material as the concrete ingredients and check the impact of same with regards to strength and specific heat of concrete. This paper presents the mix design analysis, compressive strength results and specific heat results for concrete mixes prepared with part replacement of various different materials. The results and conclusion are noted at the end of the paper for future studies.

Keywords

Rice-Husk ash,Calcium Carbide Residue,Fly Ash,Rubber Waste,Kiln Dust,Furnace Blast Slag

How to Cite this Article?

Raheja, N., and Gupta, N. (2012). Experimental Study of Effect of Part Replacement of Concrete Mix Ingredients on Specific Heat of Concrete . i-manager’s Journal on Structural Engineering, 1(3), 39-49. https://doi.org/10.26634/jste.1.3.2021

References

[1]. A.L. Marshall (1972). “The thermal properties of concrete”, Building Science, Volume 7, Issue 3, September1, Pages 167-174
[2]. Anne-Mieke Poppe, Geert De Schutter (2005). “Cement hydration in the presence of high filler contents”, Cement and Concrete Research, Volume 35, Issue 12, December, Pages 2290-2299.
[3]. A. Noumowe (2005). “Mechanical properties and microstructure of high strength concrete containing polypropylene fibres exposed to temperatures up to 200 °C”, Cement and Concrete Research, Volume35, Issue11, November,Pages2192-2198.
[4]. A.L. Marshall “The thermal properties of concrete”, Building Science, Volume 7, Issue 3, September1972, Pages167-174.
[5]. Bulent Yesilata, Yusuf Isiker, &Paki Turgut (2009). “Thermal insulation enhancement in concretes by adding waste PET and rubber pieces”, Construction and Building Materials, Volume 23, Issue 5,May,Pages1878-1882.
[6]. Caijun Shi (2004). “Steel Slag-Its Production, Processing, Characteristics, and Cementitious Properties”, Journal of Materials in Civil Engineering, Volume 16, No.3, June, Pages230-236.
[7]. ChaiJaturapitakkul and Boonmark Roongreung (2003). “ Cementing Material from Calcium Carbide Residue-Rice Husk Ash”, Journal of Materials in Civil Engineering, Volume 15, No.5, June, Pages470-475.
[8]. Eshmaiel Ganjian, Morteza Khorami, &Ali Akbar Maghsoudi (2009). “Scrap-tyre-rubber replacement for aggregate and filler in concrete”, Construction and Building Materials, Volume 23, Issue 5, May, Pages 1828-1836.
[9]. Felix F. Udoeyo and Sanni A. Abubakar (2003). “Maize-cob Ash As Filler in Concrete”, Journal of Materials in Civil Engineering, Volume 15, No.2, June, Pages205-208.
[10]. Felix F. Udoeyo and Sanni A. Abubakar (2002). “Strength of Cement kiln Dust Concrete”, Journal of Materials in Civil Engineering, Volume 14, No.6, June, Pages524-526.
[11]. Gy. Kunszt (1965). “High water content shielding concrete with iron and bauxite aggregates”, Nuclear Structural Engineering, Volume 1, Issue 1, January, Pages 118-126.
[12]. Hanifi Çanakci, Ramazan Demirboga, M. Burhan Karakoç, & Okan Sirin (2007). “Thermal conductivity of limestone from Gaziantep (Turkey)”, Building and Environment, Volume 42, Issue 4, April, Pages1777-1782.
[13]. Hisham Qasrawi, Faisal Shalabi, & Ibrahim Asi (2009). “Use of low CaO unprocessed steel slag in concrete as fine aggregate”, Construction and Building Materials, Volume 23, Issue 2, February, Pages 1118-1125.
[14]. Hanifi Binici, Tahir Shah, Orhan Aksogan, & Hasan Kaplan (2008). “Durability of concrete made with granite and marble as recycle aggregates”, Journal of Materials Processing Technology, Volume 208, Issues 1-3, 21 November, Pages 299-308.
[15]. Jiusu Li, Hanning Xiao, &Yong Zhou (2009). “Influence of coating recycled aggregate surface with pozzolanic powder on properties of recycled aggregate concrete”, Construction and Building Materials, Volume23, Issue3, March,Pages1287-1291.
[16]. John J. O'Donnell, & Eugene J. O'Brien (2003). “A new methodology for determining thermal properties and modelling temperature development in hydrating concrete”, Construction and Building Materials, Volume17, Issue3, April, Pages 189-202.
[17]. K.H. Poutos, A.M. Alani, P.J. Walden, & C.M. Sangha (2008). “Relative temperature changes within concrete made with recycled glass aggregate”, Construction and Building Materials, Volume 22,Issue4,April,Pages557-565.
[18]. Ki-Yeol Shin, Sang-Baik Kim, Jong-Hwan Kim, Mo Chung, Pyung-Suk Jung (2002). “Thermo-physical properties and transient heat transfer of concrete at elevated temperatures”, Nuclear Engineering and Design, Volume 212, Issues 1-3, March, Pages 233-241.
[19]. Kook-Han Kim, Sang-Eun Jeon, Jin-Keun Kim, & Sungchul Yang (2003). “An experimental study on thermal conductivity of concrete”, Cement and Concrete Research, Volume 33, Issue 3, March, Pages 363-371.
[20]. Matthew J. DeJong, & Franz-Josef Ulm (2007). “The nanogranular behavior of C-S-H at elevated temperatures (up to 700 °C)”, Cement and Concrete Research, Volume 37, Issue 1, January, Pages 1-12.
[21]. M. Lion, F. Skoczylas, Z. Lafhaj, & M. Sersar (2005). “Experimental study on a mortar. Temperature effects on porosity and permeability. Residual properties or direct measurements under temperature”, Cement and Concrete Research, Volume 35, Issue 10, October, Pages 1937-1942.
[22]. M.I. Khan (2002). “Factors affecting the thermal properties of concrete and applicability of its prediction models”, Building and Environment, Volume 37, Issue 6, June, Pages 607-614.
[23]. M.Ali R. Khaloo, M. Dehestani, & P. Rahmatabadi (2008). “Mechanical properties of concrete containing a high volume of tire–rubber particles”, Waste Management, Volume 28, Issue 12, December, Pages 2472-2482.
[24]. Makaratat, N., Jaturapitakkul, C., & Laosamathikul, T. (2010). ”Effects of Calcium Carbide Residue–Fly Ash Binder on Mechanical Properties of Concrete.” J. Mater. Civ. Eng., 22(11), 1164–1170.
[25]. Pu-Woei Chen, &D.D.L. Chung (1995). “Effect of polymer addition on the thermal stability and thermal expansion of cement”, Cement and Concrete Research, Volume 25, Issue 3, April, Pages 465-469.
[26]. Ramazan Demirboga, Ibrahim Türkmen, Mehmet Burhan Karakoç (2007). “Thermo-mechanical properties of concrete containing high-volume mineral admixtures”, Building and Environment, Volume 42, Issue1, January, Pages 349-354.
[27]. Rita Nemes & Zsuzsanna jozsa (2006). “ Strength of Lightweight Glass Aggregate Concrete”, Journal of Materials in Civil Engineering, Volume 18, No.5, October, Pages710-714.
[28]. R.ra, J. Podka, K. Jurek, & P. Rovnaníková (2000). “The effect of compressive stress on thermal and hygric properties of Portland cement mortar in wide temperature and moisture ranges”, Cement and Concrete Research, Volume 30, Issue 8, August, Pages 1267-1276.
[29]. Ramazan Demirboga (2007). “Thermal conductivity and compressive strength of concrete incorporation with mineral admixtures”, Building and Environment, Volume 42, Issue 7, July, Pages 2467-2471.
[30]. S.C. Kou, & C.S. Poon (2009). “Properties of self-compacting concrete prepared with recycled glass aggregate”, Cement and Concrete Composites, Volume 31, Issue 2, February, Pages 107-113.
[31]. Sami W. Tabsh, & Akmal S. Abdelfatah (2009). “Influence of recycled concrete aggregates on strength properties of concrete”, Construction and Building Materials, Volume 23, Issue 2, February, Pages 1163-1167.
[32]. V.K.R. Kodur & M.A. Sultan (2003). “Effect of Temperature on Thermal Properties of High-Strength Concrete”, Journal of Materials in Civil Engineering, Volume 15, No.2, April, Pages 101-107.
[33]. V. Mohan Malhotra (1996). “High-Volume Fly Ash and Slag Concrete”, Concrete Admixtures Handbook (Second Edition), Pages800-838.
[34]. Weerachart Tangchirapat, Rak Buranasing, Chai Jaturapitakkul, & Prinya Chindaprasirt (2008). “Influence of rice husk–bark ash on mechanical properties of concrete containing high amount of recycled aggregates”, Construction and Building Materials, Volume 22, Issue 8, August,Pages1812-1819.
[35]. Yunsheng, Xu & D.D.L. Chung (2000). “Cement of high specific heat and high thermal conductivity, obtained by using silane and silica fume as admixtures”, Cement and Concrete Research, Volume 30, Issue 7, July, Pages 1175-1178.
[36]. Yunsheng Xu & D.D.L. Chung (2000). “Effect of sand addition on the specific heat and thermal conductivity of cement”, Cement and Concrete Research, Volume 30, Issue 1, January, Pages59-61.
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