REFERENCES Mechanical Properties Of Self Compacting Concrete Using Fly Ash.
REFERENCES
Andrew Logan, Wonchang Choi, Amir Mirmiran, Sami Rizkalla, and Paul Zia.
2009. Short-Term Mechanical Properties of High-Strength Concrete. ACI
Materials Journal/September-October 2009.
ASTM C1611—Slump Flow of Self-Consolidating Concrete.
ASTM Designation: C 143/C 143M-05a.
B. Venkataraju. 2011. Study On The Stress-Strain Behaviour Of High Strength Glass
Fibre Reinforced Self-Compacting Concrete Under Axial Compression With &
Without Confinement: A Dissertation Master Of Technology In Structural
Engineering. Department Of Civil Engineering Jntuh College Of Engineering,
Kukatpally Hyderabad – 500085, Ap, India (Autonomous).
B.H.V. Pai, M. Nandy, A. Krishnamoorthy and P.K.Sarkar (2014). Comparative
study of Self Compacting Concrete mixes containing Fly Ash and Rice
Husk Ash, American Journal of Engineering Research (AJER)
BS EN 12390-3:2002. Testing hardened concrete. Compressive strength of test
specimens.
D C Teychenné, R E Franklin, H C Erntroy. Revised by. D C Teychenné, J C
Nicholls, R E Franklin, D W Hobbs, Second edition amended by B K
Marsh. 1998. Design of normal concrete mixes. Building Research
Establishment (BRE). Second edition.
EFNARC (European Federation of national trade associations representing
producers and applicators of specialist building products), Specification
and Guidelines for self-compacting concrete, February 2002, Hampshire,
U.K.
Dedi Septian. 2011. Effect of Fly Ash Content as Cement Subtitution On Elastic
Modulus of High Volume Fly Ash- Self Compacting Concrete. Thesis.
Surakarta: Sebelas Maret University
Er. Gupta Ankush, Dr. Chandak Rajeev and Er. Koshta M.K. 2014. Influence of
Fine Aggregate Particle Size and Fly-ash onthe Compressive Strength of
Mortar for SCC. International Journal of Scientific and Research
Publications, Volume 4, Issue 1. 1-6.
Frances Yang. 2004. Self-Consolidating Concrete. CE 241: Concrete Technology
Spring. Report #1:
Halstead, W. J., ―Use of Fly Ash in Concrete‖, NCHRP Synthesis 127 (1986).
53
Heba A. Mohamed. 2011. Effect of fly ash and silica fume on compressive
strength of self-compacting concrete under different curing conditions. Ain
Shams Engineering Journal (2011) 2,79–86.
John Wiley & Sons. 2001. Fundamentals of High-Performance Concrete.
Technology & Engineering - 441 pages.
Joseph. O. Ukpata and Maurice. E. Ephraim. 2012. Flexural and Tensile Strength
Properties of Concrete Using Lateritic Sand And Quarry Dust As Fine
Aggregate. ARPN Journal of Engineering and Applied Sciences. VOL. 7,
NO. 3,
Kamran Amini. 2003. Fresh and Hardened Properties of Self-Consolidating
Mortar Containing Fly Ash. Cleveland State University, Department of
civil engineering, Cleveland, OH, USA.
Kazim Turk and Mehmet Kartas. 2011. Abrasion resistance and mechanical
properties of Self-compacting concrete with different dosages of fly
ash/silica fume. Indian journal of engineering and Material sciences. Vol.
18: pp 49-60.
Khayat, K.H. and Z. Guizani, 1997. ―Use of Viscosity-Modifying Admixture to
Enhance Stability of Fluid Concrete‖, ACI Materials Journal, pp.332-340
(1997).
Krishna Murthy.N, Narasimha Rao A.V, Ramana Reddy I .V, Vijayasekhar,
Reddy.M. Mix Design Procedure for Self Compacting Concrete. IOSR
Journal of Engineering (IOSRJEN). Volume 2, Issue 9 (September 2012),
PP 33-41.
Mindess, S., J. F. Young, and D. Darwin, ―Concrete‖, Second Edition, Prentice
Hall (2003).
Mohammad Kamran and Mudit Mishra (2014); Behavior of Self-Compacting
Concrete Using PPC and OPC with Different Proportions of Fly Ash,
IJRET: International Journal of Research in Engineering and Technology
eISSN: 2319-1163 | pISSN: 2321-7308
Mohd Ahmed, JavedMallick, Mohd. Abul Hasan. 2014. A study of factors
affecting the flexural tensile strength of concrete. Journal of King Saud
University – Engineering Sciences (2014) xxx, xxx–xxx.
Mr. Mohammed Kamal Ali (2014); The Effect of Various Percentages of Fly Ash
onthe Fresh and Hardened Properties of Self Compacting Concrete,
International Journal of Enhanced Research in Science Technology &
Engineering, ISSN: 2319-7463 Vol. 3 Issue 10, October-2014, pp: (7-14),
Impact Factor: 1.252, Available online at: www.erpublications.com
54
N R Gaywala and D B Raijiwala (2011). Self Compacting Concrete: A Concrete
Of Next Decade, JERS/Vol. II/ Issue IV. 213-218
Nagataki S., Fujiwara H., Self-Compacting property of Highly-Flowable concrete,
Second Conference on advances in Concrete Technology, ACI SP154,V.M. Malhotra, American Concrete Institute, June 1995, p. 301-304.
Naik, R Tarun et al. 2005. Use of Fly Ash and Limestone Quarry by-Products For
Developing Economical Self-Compacting Concrete. For Presentation and
Publication at the International Congress on Fly Ash Utilisation, 4th – 7th
December 2005, New Delhi, INDIA .
Okamura H., Ozawa K., Mix Design for Self-Compacting Concrete, Concrete
Library of Japanese Society of Civil Engineers, June 25, 1995, p. 107-120.
Okamura, H. and Ouchi, M., (1999). "Self-compacting concrete-development,
present and future", Proceedings of the First International RILEM
symposium on Self-Compacting Concrete, pp. 3-14.
Okamura, H. and Ouchi, M., (2003). ―Self-compacting concrete‖, Journal of
Advanced Concrete Technology, Vol. 1, No. 1, April, pp. 5-15.
Okamura, H. and Ozawa, K., (1995). ―Mix design for self-compacting concrete‖,
Concrete Library of JSCE, 25, pp. 107-120.
Osman Gencel, FuatKoksal, CengizOzel, WitoldBrostow. 2012. Combined effects
of fly ash and waste ferrochromium on properties of concrete.Construction
and Building Materials 29 (2012) 633–640.
P. Desnerck, P. Van Itterbeeck, V. Boel, B. Craeyeand G. De Schutter (2011);
Survey on the Mechanical Properties of SCC: 20 years of Research, 36th
Conference on Our World in Concrete & Structures Singapore.
P.A. Ganeshwaran, Suji, S. Deepashri. 2012. Evaluation of mechanical properties
of self-Compacting concrete with manufactured sand and Fly ash.
International Journal of Civil Engineering and Technology (IJCIET).
Volume 3, Issue 2.
Pujianto, A. (2010). Beton Mutu Tinggi Dengan Bahan Tambah Superplastizer
Dan Fly Ash. Jurnal Sipil Semesta Teknika, 13(2), pp171-pp180.
RILEM. 2014. Editors. Kamal H.Khayat, Geert De Schutter. Mechanical
properties of Self compacting Concrete. STAR 228-MPS.
Takafumi Noguchi, FuminoriTomosawa, Kamran M. Nemati, Bernardino M.
Chiaia, and Alessandro P. Fantilli. 2009. A Practical Equation for Elastic
Modulus of Concrete. Structural Journal. Volume 106 (5): 690-696
55
Vageesh H.P and Reena K. (2014) Fly Ash As Partial Replacement For Cement In
Self Compacting Concrete- A Study On Compressive, Tensile
AndFlexural Strength, International Journal of Advanced Technology in
Engineering and Science
Volume No.02, Issue No. 11, ISSN
(online): 2348 – 7550, www.ijates.com
W. Lee Daniels, Barry Stewart, Kathryn Haering, and Carl Zipper .2002. The
Potential for Beneficial Reuse of Coal Fly Ash in Southwest Virginia
Mining Environments.Reclamation Guidelines For Surface Mined Land in
Southwest Virginia. Publication 460-134.
Wahab, Roshasmawi Abdul, et al. 2013. Effects of Fly Ash Addition on
Compressive Strength and Flexural Strength of Foamed Cement
Composites. Advanced Materials Research Vol. 795 (2013) pp 664-668 ©
(2013)
Trans
Tech
Publications,
Switzerland
doi:10.4028/www.scientific.net/AMR.795.664
56
Andrew Logan, Wonchang Choi, Amir Mirmiran, Sami Rizkalla, and Paul Zia.
2009. Short-Term Mechanical Properties of High-Strength Concrete. ACI
Materials Journal/September-October 2009.
ASTM C1611—Slump Flow of Self-Consolidating Concrete.
ASTM Designation: C 143/C 143M-05a.
B. Venkataraju. 2011. Study On The Stress-Strain Behaviour Of High Strength Glass
Fibre Reinforced Self-Compacting Concrete Under Axial Compression With &
Without Confinement: A Dissertation Master Of Technology In Structural
Engineering. Department Of Civil Engineering Jntuh College Of Engineering,
Kukatpally Hyderabad – 500085, Ap, India (Autonomous).
B.H.V. Pai, M. Nandy, A. Krishnamoorthy and P.K.Sarkar (2014). Comparative
study of Self Compacting Concrete mixes containing Fly Ash and Rice
Husk Ash, American Journal of Engineering Research (AJER)
BS EN 12390-3:2002. Testing hardened concrete. Compressive strength of test
specimens.
D C Teychenné, R E Franklin, H C Erntroy. Revised by. D C Teychenné, J C
Nicholls, R E Franklin, D W Hobbs, Second edition amended by B K
Marsh. 1998. Design of normal concrete mixes. Building Research
Establishment (BRE). Second edition.
EFNARC (European Federation of national trade associations representing
producers and applicators of specialist building products), Specification
and Guidelines for self-compacting concrete, February 2002, Hampshire,
U.K.
Dedi Septian. 2011. Effect of Fly Ash Content as Cement Subtitution On Elastic
Modulus of High Volume Fly Ash- Self Compacting Concrete. Thesis.
Surakarta: Sebelas Maret University
Er. Gupta Ankush, Dr. Chandak Rajeev and Er. Koshta M.K. 2014. Influence of
Fine Aggregate Particle Size and Fly-ash onthe Compressive Strength of
Mortar for SCC. International Journal of Scientific and Research
Publications, Volume 4, Issue 1. 1-6.
Frances Yang. 2004. Self-Consolidating Concrete. CE 241: Concrete Technology
Spring. Report #1:
Halstead, W. J., ―Use of Fly Ash in Concrete‖, NCHRP Synthesis 127 (1986).
53
Heba A. Mohamed. 2011. Effect of fly ash and silica fume on compressive
strength of self-compacting concrete under different curing conditions. Ain
Shams Engineering Journal (2011) 2,79–86.
John Wiley & Sons. 2001. Fundamentals of High-Performance Concrete.
Technology & Engineering - 441 pages.
Joseph. O. Ukpata and Maurice. E. Ephraim. 2012. Flexural and Tensile Strength
Properties of Concrete Using Lateritic Sand And Quarry Dust As Fine
Aggregate. ARPN Journal of Engineering and Applied Sciences. VOL. 7,
NO. 3,
Kamran Amini. 2003. Fresh and Hardened Properties of Self-Consolidating
Mortar Containing Fly Ash. Cleveland State University, Department of
civil engineering, Cleveland, OH, USA.
Kazim Turk and Mehmet Kartas. 2011. Abrasion resistance and mechanical
properties of Self-compacting concrete with different dosages of fly
ash/silica fume. Indian journal of engineering and Material sciences. Vol.
18: pp 49-60.
Khayat, K.H. and Z. Guizani, 1997. ―Use of Viscosity-Modifying Admixture to
Enhance Stability of Fluid Concrete‖, ACI Materials Journal, pp.332-340
(1997).
Krishna Murthy.N, Narasimha Rao A.V, Ramana Reddy I .V, Vijayasekhar,
Reddy.M. Mix Design Procedure for Self Compacting Concrete. IOSR
Journal of Engineering (IOSRJEN). Volume 2, Issue 9 (September 2012),
PP 33-41.
Mindess, S., J. F. Young, and D. Darwin, ―Concrete‖, Second Edition, Prentice
Hall (2003).
Mohammad Kamran and Mudit Mishra (2014); Behavior of Self-Compacting
Concrete Using PPC and OPC with Different Proportions of Fly Ash,
IJRET: International Journal of Research in Engineering and Technology
eISSN: 2319-1163 | pISSN: 2321-7308
Mohd Ahmed, JavedMallick, Mohd. Abul Hasan. 2014. A study of factors
affecting the flexural tensile strength of concrete. Journal of King Saud
University – Engineering Sciences (2014) xxx, xxx–xxx.
Mr. Mohammed Kamal Ali (2014); The Effect of Various Percentages of Fly Ash
onthe Fresh and Hardened Properties of Self Compacting Concrete,
International Journal of Enhanced Research in Science Technology &
Engineering, ISSN: 2319-7463 Vol. 3 Issue 10, October-2014, pp: (7-14),
Impact Factor: 1.252, Available online at: www.erpublications.com
54
N R Gaywala and D B Raijiwala (2011). Self Compacting Concrete: A Concrete
Of Next Decade, JERS/Vol. II/ Issue IV. 213-218
Nagataki S., Fujiwara H., Self-Compacting property of Highly-Flowable concrete,
Second Conference on advances in Concrete Technology, ACI SP154,V.M. Malhotra, American Concrete Institute, June 1995, p. 301-304.
Naik, R Tarun et al. 2005. Use of Fly Ash and Limestone Quarry by-Products For
Developing Economical Self-Compacting Concrete. For Presentation and
Publication at the International Congress on Fly Ash Utilisation, 4th – 7th
December 2005, New Delhi, INDIA .
Okamura H., Ozawa K., Mix Design for Self-Compacting Concrete, Concrete
Library of Japanese Society of Civil Engineers, June 25, 1995, p. 107-120.
Okamura, H. and Ouchi, M., (1999). "Self-compacting concrete-development,
present and future", Proceedings of the First International RILEM
symposium on Self-Compacting Concrete, pp. 3-14.
Okamura, H. and Ouchi, M., (2003). ―Self-compacting concrete‖, Journal of
Advanced Concrete Technology, Vol. 1, No. 1, April, pp. 5-15.
Okamura, H. and Ozawa, K., (1995). ―Mix design for self-compacting concrete‖,
Concrete Library of JSCE, 25, pp. 107-120.
Osman Gencel, FuatKoksal, CengizOzel, WitoldBrostow. 2012. Combined effects
of fly ash and waste ferrochromium on properties of concrete.Construction
and Building Materials 29 (2012) 633–640.
P. Desnerck, P. Van Itterbeeck, V. Boel, B. Craeyeand G. De Schutter (2011);
Survey on the Mechanical Properties of SCC: 20 years of Research, 36th
Conference on Our World in Concrete & Structures Singapore.
P.A. Ganeshwaran, Suji, S. Deepashri. 2012. Evaluation of mechanical properties
of self-Compacting concrete with manufactured sand and Fly ash.
International Journal of Civil Engineering and Technology (IJCIET).
Volume 3, Issue 2.
Pujianto, A. (2010). Beton Mutu Tinggi Dengan Bahan Tambah Superplastizer
Dan Fly Ash. Jurnal Sipil Semesta Teknika, 13(2), pp171-pp180.
RILEM. 2014. Editors. Kamal H.Khayat, Geert De Schutter. Mechanical
properties of Self compacting Concrete. STAR 228-MPS.
Takafumi Noguchi, FuminoriTomosawa, Kamran M. Nemati, Bernardino M.
Chiaia, and Alessandro P. Fantilli. 2009. A Practical Equation for Elastic
Modulus of Concrete. Structural Journal. Volume 106 (5): 690-696
55
Vageesh H.P and Reena K. (2014) Fly Ash As Partial Replacement For Cement In
Self Compacting Concrete- A Study On Compressive, Tensile
AndFlexural Strength, International Journal of Advanced Technology in
Engineering and Science
Volume No.02, Issue No. 11, ISSN
(online): 2348 – 7550, www.ijates.com
W. Lee Daniels, Barry Stewart, Kathryn Haering, and Carl Zipper .2002. The
Potential for Beneficial Reuse of Coal Fly Ash in Southwest Virginia
Mining Environments.Reclamation Guidelines For Surface Mined Land in
Southwest Virginia. Publication 460-134.
Wahab, Roshasmawi Abdul, et al. 2013. Effects of Fly Ash Addition on
Compressive Strength and Flexural Strength of Foamed Cement
Composites. Advanced Materials Research Vol. 795 (2013) pp 664-668 ©
(2013)
Trans
Tech
Publications,
Switzerland
doi:10.4028/www.scientific.net/AMR.795.664
56