References

ACI., 1998. Guide for selecting proportions for high-strength concrete using Portland cement and other cementitious materials. American Concrete Institute, Michigan, USA.

ASTM., 1997. Standard test method for electrical indication of concrete’s ability to resist chloride ion penetration. ASTM International, West Conshohocken, Pennsylvania, USA.

ASTM., 1999. Standard test method for time of setting of concrete mixture by penetration resistance. ASTM International, West Conshohocken, Pennsylvania, USA.

ASTM., 2001. Standard specification for Portland cement. ASTM International, West Conshohocken, Pennsylvania, USA.

ASTM., 2005. Standard specification for fly ash or raw or natural pozzolan for use as a mineral admixture in Portland cement concrete. ASTM International, West Conshohocken, Pennsylvania, USA.

Awal, A.A., 1998. A study of strength and durability performances of concrete containing Palm oil fuel Ash. Ph.D. Thesis, Universiti Teknologi Malaysia, Malaysia, Asia.

BSI., 2000. Testing fresh concrete. British Standards Institution, London, UK.

BSI., 2002. Testing of hardened concrete: Compressive strength of test specimens. British Standards Institution, London, UK.

Brooks, J.J., M.M. Johari and M. Mazloom, 2000. Effect of admixtures on the setting times of high-strength concrete. Cem. Concr. Compos., 22: 293-301.
Direct Link  |  

Cabrera, J.G. and C.J. Lynsdale, 1988. A new gas permeameter for measuring the permeability of mortar and concrete. Mag. Concr. Res., 40: 177-182.
CrossRef  |  Direct Link  |  

Chandara, C., E. Sakai, K.A.M. Azizli, Z.A. Ahmad and S.F.S. Hashim, 2010. The effect of unburned carbon in palm oil fuel ash on fluidity of cement pastes containing superplasticizer. Constr. Build. Mater., 24: 1590-1593.
Direct Link  |  

Chandara, C., K.A.M. Azizli, Z.A. Ahmad, S.F.S. Hashim and E. Sakai, 2011. Analysis of mineralogical component of palm oil fuel ash with or without unburned carbon. Adv. Mater. Res., 173: 7-11.
Direct Link  |  

Chindaprasirt, P., S. Homwuttiwong and C. Jaturapitakkul, 2007. Strength and water permeability of concrete containing palm oil fuel ash and rice husk-bark ash. Constr. Build. Mater., 21: 1492-1499.
CrossRef  |  

Chindaprasirt, P., S. Rukzon and V. Sirivivatnanon, 2008. Resistance to chloride penetration of blended Portland cement mortar containing palm oil fuel ash, rice husk ash and fly ash. Constr. Build. Mater., 22: 932-938.
CrossRef  |  

Houst, Y.F. and F.H. Wittmann, 1994. Influence of porosity and water content on the diffusivity of CO₂ and O₂ through hydrated cement paste. Cem. Concr. Res., 24: 1165-1176.
Direct Link  |  

Jaturapitakkul, C., K. Kiattikomol, W. Tangchirapat and T. Saeting, 2007. Evaluation of the sulfate resistance of concrete containing palm oil fuel ash. Construct. Build. Mater., 21: 1399-1405.
CrossRef  |  

MPOB., 2010. Economics and industry development division. Malaysian Palm Oil Board, Bandar Baru Bangi, Malaysia.

Mohammed, A.N., M.A.M. Johari, A.M. Zeyad, B.A. Tayeh and M.O. Yusuf, 2014. Improving the engineering and fluid transport properties of ultra-high strength concrete utilizing ultrafine palm oil fuel ash. J. Adv. Concr. Technol., 12: 127-137.
Direct Link  |  

Muthusamy, K. and Z.N. Azzimah, 2014. Exploratory study of palm oil fuel ash as partial cement replacement in oil palm shell lightweight aggregate concrete. Res. J. Appl. Sci. Eng. Technol., 8: 150-152.

Safiuddin, M., A. Salam and M.Z. Jumaat, 2012. Correlations between different hardened properties of high-strength self-consolidating concrete including palm oil fuel ash. Appl. Mech. Mater., 117: 1215-1222.
Direct Link  |  

Safiuddin, M., M. Salam and M.Z. Jumaat, 2011. Correlations between fresh properties of self-consolidating concrete including palm oil fuel ash. Adv. Mater. Res., 250: 409-416.
Direct Link  |  

Safiuddin, M., M.A. Salam and M.Z. Jumaat, 2012. Flowing ability of self-consolidating concrete and its binder paste phase including palm oil fuel ash. Mag. Concr. Res., 64: 931-944.

Safiuddin, M., M.A. Salam and M.Z. Jumaat, 2013. Key fresh properties of self-consolidating high-strength POFA concrete. J. Mater. Civil Eng., 26: 134-142.
Direct Link  |  

Salam, M., M. Safiuddin and M. Jumaat, 2013. Microstructure of self-consolidating high strength concrete incorporating palm oil fuel ash. Phys. Rev. Res. Intl., 3: 674-678.
Direct Link  |  

Sata, V., C. Jaturapitakkul and K. Kiattikomol, 2004. Utilization of palm oil fuel ash in high-strength concrete. J. Mater. Civil Eng., 16: 623-628.
Direct Link  |  

Sata, V., C. Jaturapitakkul and K. Kiattikomol, 2007. Influence of pozzolan from various by-product materials on mechanical properties of high-strength concrete. Constr. Build. Mater., 21: 1589-1598.
CrossRef  |  

Tangchirapat, W., C. Jaturapitakkul and P. Chindaprasirt, 2009. Use of palm oil fuel ash as a supplementary cementitious material for producing high-strength concrete. Constr. Build. Mater., 23: 2641-2646.
CrossRef  |  

Tangchirapat, W., T. Saeting, C. Jaturapitakkul, K. Kiattikomol and A. Siripanichgorn, 2007. Use of waste ash from palm oil industry in concrete. Waste Manage., 27: 81-88.
PubMed  |  Direct Link  |  

Tay, J.H., 1990. Ash from oil-palm waste as a concrete material. J. Mater. Civil Eng., 2: 94-105.
Direct Link  |  

Tayeh, B.A., B.H. Abu-Bakar, M.A. Johari and A.M. Zeyad, 2013. The role of silica fume in the adhesion of concrete restoration systems. Adv. Mater. Res., 626: 265-269.
Direct Link  |  

Valenta, O., 1970. The permeability and durability of concrete in aggressive conditions. Proceedings of the 10th International Congress on Large Dams, June 1-5, 1970, Université de Montréal, Montreal, Quebec, Canada, pp: 103-117.

Yusoff, S., 2006. Renewable energy from palm oil-innovation on effective utilization of waste. J. Cleaner Prod., 14: 87-93.
CrossRef  |  Direct Link  |  

Zeyad, A.M., M.A. Johari, N.M. Bunnori, K.S. Ariffin and N.M. Altwair, 2013. Characteristics of treated palm oil fuel ash and its effects on properties of high strength concrete. Adv. Mater. Res., 626: 152-156.
Direct Link  |  

Zeyad, A.M., M.M. Johari, B.A. Tayeh and M.O. Yusuf, 2016. Efficiency of treated and untreated palm oil fuel ash as a supplementary binder on engineering and fluid transport properties of high-strength concrete. Constr. Build. Mater., 125: 1066-1079.
Direct Link  |