Correlations between fresh properties of self-consolidating concrete including palm oil fuel ash

Safiuddin, M. and Salam, M.A. and Jumaat, Mohd Zamin (2011) Correlations between fresh properties of self-consolidating concrete including palm oil fuel ash. In: 1st International Conference on Civil Engineering, Architecture and Building Materials, CEABM 2011, Haikou.

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Abstract

Palm oil fuel ash (POFA) has been used successfully as a supplementary cementing material in various types of concrete. In the present study, self-consolidating concrete (SCC) was produced by using POFA as a partial replacement of ordinary portland cement (OPC). In total, sixteen SCC mixes were prepared by varying water to binder (W/B) ratio, POFA content, and high-range water reducer (HRWR). POFA was used by replacing 0-30 of OPC by weight at the W/B ratios ranging from 0.25 to 0.40. The filling ability, passing ability and segregation resistance of various SCC mixes were investigated. The filling ability was determined with respect to slump flow, 50-cm slump flow time, inverted slump cone flow spread and time, and V-funnel flow time. The passing ability was examined with respect to J-ring flow. In addition, the segregation resistance was assessed with regard to sieve segregation index and column segregation factor. Based on the data obtained, the correlations for the fresh properties of SCC were sought. The experimental findings showed strong correlations between most of the fresh properties of SCC.

Item Type: Conference or Workshop Item (Paper)
Funders: UNSPECIFIED
Additional Information: Conference code: 84978 Cited By (since 1996): 1 Export Date: 6 January 2013 Source: Scopus doi: 10.4028/www.scientific.net/AMR.250-253.409 Language of Original Document: English Correspondence Address: Safiuddin, Md.; Department of Civil and Environmental Engineering, Faculty of Engineering, University of Waterloo, 200 University Avenue West, Waterloo, ON N2L 3G1, Canada; email: msafiudd@engmail.uwaterloo.ca References: Khayat, K.H., (1999) ACI Materials Journal, 96, p. 346; Okamura, H., Ouchi, M., (2003) Journal of Advanced Concrete Technology, 1, p. 5; Ozawa, K., Maekawa, K., Kunishima, M., Okamura, H., (1989) Proceedings of the Second East-Asia and Pacific Conference on Structural Engineering and Construction, p. 445. , EASEC-21, Chiang Mai, Thailand; Okamura, H., Ozawa, K., (1995) Concrete Library of JSCE, 25, p. 107; Cyr, M., Mouret, M., (2003) Proceedings of the Seventh CANMET/ACI International Conference on Superplasticizers and Other Chemical Admixtures in Concrete, p. 241. , edited by V.M., Malhotra, American Concrete Institute, Michigan, USA; Kim, H., Park, Y.-D., Noh, J., Song, Y., Han, C., Kang, S., (1997) Proceedings of the Third CANMET/ACI International Conference, p. 653. , edited by V.M. Malhotra, American Concrete Institute, Michigan, USA; Safiudd, Md., (2008) Development of Self-consolidating High Performance Concrete Incorporating Rice Husk Ash, , Ph.D. Thesis, University of Waterloo, Ontario, Canada; Abdullah, K., Hussin, M.W., Zakaria, F., Muhamad, R., Hamid, Z.A., (2006) Proceedings of the 6th Asia-Pacific Structural Conference on Engineering and Construction, pp. B132-B140. , APSEC 2006 Kuala Lumpur, Malaysia; Tangchirapat, W., Jaturapitakkul, C., Chindaprasirt, P., (2009) Construction and Building Materials, 23, p. 2641; Tonnayopas, D., Nilrat, F., Putto, K., Tantiwitayawanich, J., (2006) Proceedings of the 4th Thailand Materials Science and Technology Conference, p. 1. , Pathumthani, Thailand; Sumadi, S.R., Huss, M.W., (1995) Journal of Ferrocement, 25, p. 25; Safiuddin, Md., Salam, M.A., Jumaat, M.Z., (2010) Accepeted in Journal of Civil Engineering and Management; (2002) ACI Manual of Concrete Practice, (PART 1). , ACI 211.4R-93, American Concrete Institute, Farmington Hills, Michigan, USA; (2006) Annual Book of ASTM Standards, 4 (2). , ASTM C 1611/C 1611M, American Society for Testing and Materials, Philadelphia, USA; (2002) EFNARC: Specifications and Guidelines for Self-Consolidating Concrete, , (European Federation of Supplies of Specialist Construction Chemicals (EFNARC Surrey, UK; (2006) Annual Book of ASTM Standards, 4 (2). , ASTM C 1621/C 1621M, American Society for Testing and Materials, Philadelphia, USA; Nagataki, S., Fujiwara, H., (1995) Proceedings of the Second CANMET/ACI International Symposium on Advances in Concrete Technology, p. 301. , edited by V. M. Malhotra, American Concrete Institute, Farmingham Hills, Michigan, USA; (2006) Annual Book of ASTM Standards, 4 (2). , ASTM C 1610/C 1610M, American Society for Testing and Materials, Philadelphia, USA; Parez, N., Romero, H., Hermida, G., Cuellar, G., (2002) Proceedings of the First North American Conference on the Design and Use of Self-Consolidating Concrete, p. 101. , edited by S.P. Shah, J.A. Daczko and J.N. Lingscheit, Hanley-Wood, LLC, Illinois, USA; Koehler, E.P., Fowler, D.W., (2006) ICAR Mixture Proportioning Procedure for Self-Consolidating Concrete, , (Research Report 108-1, International Center for Aggregates Research, University of Texas at Austin, Texas, USA Sponsors: Hainan University, College of Civil Engineering and Architecture; Guizhou University, College of Civil and Architecture Engineering; Hainan Society of Theoretical and Applied Mechanics
Uncontrolled Keywords: Filling ability, Palm oil fuel ash, Passing ability, Segregation resistance, Self-consolidating concrete, Filling abilities, Palm oil, Building materials, Civil engineering, Construction equipment, Filling, Fuels, Portland cement, Water content, Vegetable oils.
Subjects: T Technology > TA Engineering (General). Civil engineering (General)
Divisions: Faculty of Engineering
Depositing User: Mr Jenal S
Date Deposited: 25 Apr 2013 02:21
Last Modified: 05 Feb 2020 04:23
URI: http://eprints.um.edu.my/id/eprint/5927

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