1 |
ASTM C1138-97, Standard test method for abrasion resistance of concrete (Underwater method), Philadelphia.
|
2 |
ASTM C618-08a, Standard specification for coal fly ash and raw or calcined natural pozzolan for use in concrete, philadelphia.
|
3 |
Awal, A.S.M.A. and Hussin, M.W. (1997), "The effectiveness of palm oil fuel ash in preventing expansion due to alkali-silica reaction", Cement Concrete Comp., 19(4), 367-372.
DOI
ScienceOn
|
4 |
Basheer, L., Kropp, J. and Cleland, D.J. (2001), "Assessment of the durability of concrete from its permeation properties: a review", Constr. Build. Mater., 15(2-3), 93-103.
DOI
ScienceOn
|
5 |
Chindaprasirt, P., Chareerat, T., Hatanaka, S. and Cao, T. (2010a), "High strength geopolymer using fine high calcium fly ash", J. Mater. Civil Eng., 23(3), 264-270.
|
6 |
Chindaprasirt, P., Chotetanorm, C. and Rukzon, S. (2010b), "The use of palm oil fuel ash to improve the chloride and corrosion resistance of high-strength and high-workability concrete", J. Mater. Civil Eng., 23(4), 499-503.
|
7 |
Chindaprasirt, P., Homwuttiwong, S. and Sirivivatnanon, V. (2004), "Influence of fly ash fineness on strength, drying shrinkage and sulfate resistance of blended cement mortar", Cement Concrete Res., 34(7), 1087-1092.
DOI
ScienceOn
|
8 |
Chindaprasirt, P., Jaturapitakkul, C. and Sinsiri, T. (2005), "Effect of fly ash fineness on compressive strength and pore size of blended cement paste", Cement Concrete Comp., 27(4), 425-428.
DOI
ScienceOn
|
9 |
Chindaprasirt, P., Jaturapitakkul, C. and Sinsiri, T. (2007), "Efffect of fly ash fineness on microstructure of blended cement paste", Constr. Build. Mater., 21(7), 1534-1541.
DOI
ScienceOn
|
10 |
Concrete Society Ltd. (1987), "Permeability testing of site concrete: a review of methods and experience", Report No. 31. Report of a concrete society working party. The Concrete Society, London.
|
11 |
Erdogdu, K. and Turker, P. (1998), "Effects of fly ash particle size on strength of Portland cement fly ash mortars", Cement Concrete Res., 28(9), 1217-1222.
DOI
ScienceOn
|
12 |
Govindarajan, D. and Gopalakrishnan, R. (2009), "Magnetic susceptibility measurements on metakaolin admixtured cement hydrated with ground water and sea water", Int. J. Miner. Metall. Mater., 16(3), 349-354.
DOI
ScienceOn
|
13 |
Isaia, G.C., Gastaldini, A.L.G. and Moraes, R. (2003), "Physical and pozzolanic action of mineral additions on the mechanical strength of high-performance", Cement Concrete Comp., 25(1), 69-76.
DOI
ScienceOn
|
14 |
Jiang, L.H. and Malhotra, V.M. (2000), "Reduction in water demand of non-air-entrained concrete incorporating large volumes of fly ash", Cement Concrete Res., 30(11), 1785-1789.
DOI
ScienceOn
|
15 |
Khan, M.I. (2003), "Permeation of high performance concrete", J. Mater. Civil Eng., 15(1), 84-92.
DOI
ScienceOn
|
16 |
Khatri, R.P. and Sirivivatnanon, V. (1997), "Methods for the determination of water permeability of concrete", ACI Mater. J., 94(3), 257-261.
|
17 |
Li, H., Zhang, M.H. and Ou, J.P. (2006), "Abrasion resistance of concrete containing nano-particles for pavement", Wear, 260(11-12), 1262-1266.
DOI
ScienceOn
|
18 |
Liu, Y.W., Yen, T. and Hsu, T.H. (2006), "Abrasion erosion of concrete by water-borne sand", Cement Concrete Res., 36(10), 1814-1820.
DOI
ScienceOn
|
19 |
Malhotra, V.M. (2002), "Introduction: sustainable development and concrete technology", ACI Concrete Int., 24(7), 22.
|
20 |
Naik, T.R., Singh, S.S. and Hossain, M.M. (1996), "Permeability of high-strength concrete containing low cement factor", J. Energy Eng., 122(1), 21-39.
DOI
|
21 |
Naik, T.R., Singh, S.S. and Ramme, B.W. (2002), "Effect of source of fly ash on abrasion resistance of concrete", J. Mater. Civil Eng., 14(5), 417-426.
DOI
ScienceOn
|
22 |
Nehdi, M., Mindess, S. and Aitcin, P.C. (1998), "Rheology of high-performance concrete: effect of ultrafine particles", Cement Concrete Res., 28(5), 687-697.
DOI
ScienceOn
|
23 |
Neville, A.M. (1995), Properties of concrete, 4th and final edition, London, Addison Wesley Longman Limited.
|
24 |
Poon, C.S., Azhar, S., Anson, M. and Wong, Y.L. (2001), "Comparison of the strength and durability performance of normal and high-strength pozzolanic concretes at elevated temperatures", Cement Concrete Res., 31(9), 1291-1300.
DOI
ScienceOn
|
25 |
Ramezanianpour, A.A. and Malhotra, V.M. (1995), "Effect of curing on the compressive strength, resistance to chloride-ion penetration and porosity of concretes incorporating slag, fly ash or silica fume", Cement Concrete Comp., 17(2), 125-133.
DOI
ScienceOn
|
26 |
Rukzon, S. and Chindaprasirt, P. (2009a), "Strength and chloride penetration of Portland cement mortar containing palm oil fuel ash and ground river sand", Comput. Concrete, 6(5), 391-401.
DOI
|
27 |
Rukzon, S. and Chindaprasirt, P. (2009b), "Strength and chloride resistance of blended Portland cement mortar containing palm oil fuel ash and fly ash", Int. J. Miner., Metall. Mater., 16(4), 475-481.
DOI
ScienceOn
|
28 |
Sata, V., Khammathit, P. and Chindaprasirt, P. (2011), "Efficiency factor of high calcium Class F fly ash concrete", Comput. Concrete, 8(5), 583-595.
DOI
|
29 |
Sathonsaowaphak, A., Chindaprasirt, P. and Pimraksa, K. (2009), "Workability and strength of lignite bottom ash geopolymer mortar", J. Hazard. Mater., 168(1), 44-50.
DOI
ScienceOn
|
30 |
Serdar, A., Halit, Y., Hüseyin, Y. and Bülent, B. (2007), "Sulfuric acid resistance of high-volume fly ash concrete", Build. Environ., 42(2), 717-721.
DOI
ScienceOn
|
31 |
Tay, J.H. (1990), "Ash from oil-palm waste as concrete material", J. Mater. Civil Eng., 2(2), 94-105.
DOI
|
32 |
Siddique, R. (2003), "Effect of fine aggregate replacement with Class F fly ash on the abrasion resistance of concrete", Cement Concrete Res., 33(11), 1877-1881.
DOI
ScienceOn
|
33 |
Tangchirapat, W., Jaturapitakkul, C. and Chindaprasirt, P. (2009), "Use of palm oil fuel ash as a supplementary cementitious material for producing high-strength concrete", Constr. Build. Mater., 23(7), 2641-2646.
DOI
ScienceOn
|
34 |
Tangpagasit, J., Cheerarot, R., Jaturapitakkul, C. and Kiattikomol, K. (2005), "Packing effect and pozzolanic reaction of fly ash in mortar", Cement Concrete Res., 35(6), 1145-1151.
DOI
ScienceOn
|
35 |
Vedalakshmi, R., Sundara Raj, A., Srinivasan, S. and Ganesh Babu, K. (2003), "Quantification of hydrated cement products of blended cements in low and medium strength concrete using TG and DTA technique", Thermochim Acta, 407(1-2), 49-60.
DOI
ScienceOn
|