Development of green ultra-high performance fiber reinforced concrete containing ultrafine palm oil fuel ash

Construction and Building Materials

Volumn 48, Issue , 2013, Pages 379-389

  Aldahdooh, M A A ^a   Muhamad Bunnori, N ^a   Megat Johari, M A ^a  

^a SCHOOL OF CHEMICAL ENGINEERING   (Malaysia)

Author keywords

Central composite design; Efficient pozzolan; Mechanical properties; Silica fume; UPOFA; Workability

Indexed keywords

CENTRAL COMPOSITE DESIGNS; DIRECT TENSILE STRENGTHS; EFFICIENT POZZOLANS; ENGINEERING PROPERTIES; RESPONSE SURFACE METHOD; ULTRA-HIGH-PERFORMANCE FIBER-REINFORCED CONCRETE; UPOFA; WORKABILITY;

BENDING STRENGTH; COMPRESSIVE STRENGTH; CONCRETES; GREENHOUSE GASES; MECHANICAL PROPERTIES; PALM OIL; SILICA FUME; TENSILE STRENGTH;

FIBER REINFORCED MATERIALS;

BEND STRENGTH; COMPRESSION STRENGTH; GREENHOUSE GASES; MECHANICAL PROPERTIES; SILICA; TENSILE STRENGTH;

EID: 84881169767     PISSN: 09500618     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.conbuildmat.2013.07.007     Document Type: Article

References (44)

1. M.N. Fardis Innovative materials and techniques in concrete construction: ACES Workshop 2012 University of Patras Springer Dordrecht Heidelberg London New York
2. Spasojević A. Structural implications of ultra-high performance fiber-reinforced concrete in bridge design. Ph.D. thesis, EPFL; 2008.
3. K. Habel, M. Viviani, E. Denarié, and E. Brühwiler Development of the mechanical properties of an ultra-high performance fiber reinforced concrete (UHPFRC) Cem Concr Res 36 7 2006 1362 1370
4. Brühwiler E, Denarié E. Rehabilitation of concrete structures using ultra-high performance fiber reinforced concrete. In: Proceedings, the second international symposium on ultra-high performance concrete; 2008.
5. F. Bayramov, C. Taşdemir, and M. Taşdemir Optimisation of steel fiber reinforced concretes by means of statistical response surface method Cement Concr Compos 26 6 2004 665 675
6. Schmidt M, Fehling E. Ultra-high-performance concrete: research, development and application in Europe. In: 7th International Symposium on the Utilization of High-Strength/High-Performance, Concrete; 2005. p. 51-77.
7. Haghighi A, Koohkan MR, Shekarchizadeh M. Optimizing mix proportions of reactive powder concrete using group method of data handling and genetic programming. In: 32nd Conference on our world in concrete & structures. Singapore; 2007.
8. S. Benson, and B. Karihaloo CARDIFRC®-development and mechanical properties. Part I: Development and workability Mag Concr Res 57 6 2005 347 352 (Pubitemid 41092753)
9. K. Holschemacher, and D. Weiße Economic mix design of ultra high strength Concrete 2005 1133 1144
10. E. Worrell, L. Price, N. Martin, C. Hendriks, and L.O. Meida Carbon dioxide emissions from the global cement industry 1 Annu Rev Energy Env 26 1 2001 303 329 (Pubitemid 34103862)
11. Arshad MF. Influence of multiple blended binders on engineering properties and durability of concrete Ph.D thesis. Malaysia, Universiti Sains Malaysia; 2010.
12. H.B. Thomas Particle packing; an effective approach to optimized design of ultra high strength and self compacting concretes 2011 University of New South Wales Australia
13. F. De Larrard, and T. Sedran Optimization of ultra-high-performance concrete by the use of a packing model Cem Concr Res 24 6 1994 997 1009
14. N.M. Altwair, M. Johari, and S. Saiyid Hashim Flexural performance of green engineered cementitious composites containing high volume of palm oil fuel ash Constr Build Mater 37 2012 518 525
15. P. Chindaprasirt, S. Homwuttiwong, and C. Jaturapitakkul Strength and water permeability of concrete containing palm oil fuel ash and rice husk-bark ash Constr Build Mater 21 7 2007 1492 1499 (Pubitemid 46389569)
16. C. Jaturapitakkul, K. Kiattikomol, W. Tangchirapat, and T. Saeting Evaluation of the sulfate resistance of concrete containing palm oil fuel ash Constr Build Mater 21 7 2007 1399 1405 (Pubitemid 46389572)
17. W. Tangchirapat, T. Saeting, C. Jaturapitakkul, K. Kiattikomol, and A. Siripanichgorn Use of waste ash from palm oil industry in concrete Waste Manage (Oxford) 27 1 2007 81 88 (Pubitemid 44780946)
18. S. Rukzon, and P. Chindaprasirt An experimental investigation of the carbonation of blended portland cement palm oil fuel ash mortar in an indoor environment Indoor Built Environ 18 4 2009 313 318
19. W. Tangchirapat, J. Tangpagasit, S. Waew-kum, and C. Jaturapitakkul A new pozzolanic material from palm oil fuel ash KMUTT Res Dev J 26 4 2003 459 473
20. M.A.M. Megat Johari, A.M. Zeyad, N. Muhamad Bunnori, and K.S. Ariffin Engineering and transport properties of high-strength green concrete containing high volume of ultrafine palm oil fuel ash Constr Build Mater 30 2012 281 288
21. J.H. Tay Ash from oil-palm waste as a concrete material J Mater Civ Eng 2 2 1990 94 105
22. Awal A, Hussin M. Durability of high performance concrete containing palm oil fuel ash. In: 8th International conference on durability of building materials and components; 8 dbmc1999. p. 465-74.
23. Ahmad M, Omar R, Malek M, Noor N, Thiruselvam S. Compressive strength of palm oil fuel ash concrete. In: Proc of the international conference on construction and building technology. Kuala Lumpur, Malaysia; 2008. p. 297-306.
24. M. Karim, M. Zain, M. Jamil, and M. Islam Strength of concrete as influenced by palm oil fuel ash Aust J Basic Appl Sci 5 5 2011 990 997
25. V. Sata, C. Jaturapitakkul, and K. Kiattikomol Utilization of palm oil fuel ash in high-strength concrete J Mater Civ Eng 16 6 2004 623 628 (Pubitemid 39660925)
26. W. Tangchirapat, C. Jaturapitakkul, and P. Chindaprasirt Use of palm oil fuel ash as a supplementary cementitious material for producing high-strength concrete Constr Build Mater 23 7 2009 2641 2646
27. V. Sata, C. Jaturapitakkul, and K. Kiattikomol Influence of pozzolan from various by-product materials on mechanical properties of high-strength concrete Constr Build Mater 21 7 2007 1589 1598 (Pubitemid 46389570)
28. F. Farhat, D. Nicolaides, A. Kanellopoulos, and B. Karihaloo High performance fiber-reinforced cementitious composite (CARDIFRC) - performance and application to retrofitting Eng Fract Mech 74 1 2007 151 167 (Pubitemid 44391185)
29. Montgomery DC. Design and analysis of experiments. Wiley; 2008.
30. M. Auta, and B.H. Hameed Optimized waste tea activated carbon for adsorption of Methylene Blue and Acid Blue 29 dyes using response surface methodology Chem Eng J 175 2011 233 243
31. S. Ghafari, H.A. Aziz, M.H. Isa, and A.A. Zinatizadeh Application of response surface methodology (RSM) to optimize coagulation-flocculation treatment of leachate using poly-aluminum chloride (PAC) and alum J Hazard Mater 163 2 2009 650 656
32. G.A. Kollmorgen Impact of age and size on the mechanical behavior of an ultra high performance concrete 2004 Michigan Technological University
33. R. Toledo Filho, E. Koenders, S. Formagini, and E. Fairbairn Performance assessment of ultra high performance fiber reinforced cementitious composites in view of sustainability Mater Des 2011
34. British Standard Institution. BSI EN 12390-3. Testing hardened concrete. Compressive strength of test specimens. London: BSI; 2002.
35. Graybeal BA. Material property characterization of ultra-high performance concrete Ph.D thesis. McLean; 2007.
36. V.C. Li, T. Horikoshi, A. Ogawa, S. Torigoe, and T. Saito Micromechanics-based durability study of polyvinyl alcohol-engineered cementitious composite ACI Mater J 101 3 2004 242 248
37. ASTM: C 496. Standard test method for splitting tensile strength of cylyndrical concrete specimens. West Conshohocken: ASTM; 1996.
38. ASTM: C 39. Standard test method for compressive strength of cylindrical concrete specimens1. West Conshohocken, PA 19428-2959, United States: ASTM; 2001.
39. B.A. Graybeal Compressive behavior of ultra-high-performance fiber-reinforced concrete ACI Mater J 104 2 2007 146
40. C. Jolicoeur, and M.A. Simard Chemical admixture-cement interactions: phenomenology and physico-chemical concepts Cement Concr Compos 20 2 1998 87 101 (Pubitemid 128401501)
41. S. Bhanja, and B. Sengupta Influence of silica fume on the tensile strength of concrete Cem Concr Res 35 4 2005 743 747 (Pubitemid 40390987)
42. M. Panjehpour, A.A. Abang Ali, and R. Demirboga A review for characterization of silica fume and its effects on concrete properties Int J Sustainable Construction Eng Technol 2 2 2011
43. D.D.L. Chung Review: improving cement-based materials by using silica fume J Mater Sci 37 4 2002 673 682 (Pubitemid 34180007)
44. S. Benson, and B. Karihaloo CARDIFRC®-development and mechanical properties. Part III: uniaxial tensile response and other mechanical properties Mag Concr Res 57 8 2005 433 443 (Pubitemid 41663687)