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Basri, H.B., Mannan, M.A. and Zain, M.F.M. (1999). “Concrete using waste oil palm shells as aggregate,”
Cement and Concrete Research
. 29(4), 619-622.
Boongunt, G., Tonnayopas, D. and Riangmanorom, S. “Influence of perlite aggregate and admixtures on physical
properties and strength of lightweight mortar,” 23-25 May, 2005, Budapest. (CD Rom)
Falade, F. (1992). “The use of palm kernel shells as coarse aggregate in concrete.”
Journal of Housing Science
.
16(3): 213–9.
Jumaat, M.Z., Alengaram, U.J. and Mahmud, H. (2009). “Shear strength of oil palm shell foamed concrete
beams.”
Materials and Design
. 30(6), 2227-2236.
Mannan, M.A., Alexander, J., Ganapathy, C. and Teo, D.C.L. (2006). “Quality improvement of oil palm shell
(OPS) as coarse aggregate in lightweight concrete,”
Building and Environment
. 41(9), 1239-1242.
Mannan, M.A., Basri H.B., Zain, M.F.M. and Islam, M.N. (2002). “Effect of curing conditions on the properties of
OPS-concrete,”
Building and Environment
. 37(11), 1167–1171.
Mannan, M.A. and Ganapathy, C. (2001a). “Long-term strengths of concrete with oil palm shell as coarse
aggregate,”
Cement and Concrete Research
. 31(9), 1319–1321.
Mannan, M.A. and Ganapathy, C. (2001b). “Mix design for oil palm shell concrete,”
Cement and Concrete
Research
. 31(9), 1323–1325.
Mannan, M.A. and Ganapathy, C. (2002). “Engineering properties of concrete with oil palm shell as coarse
aggregate,”
Construction and Building Materials
. 16(1), 29-34.
Mannan, M.A. and Ganapathy, C.
(2004a)
.
“Concrete from an agricultural waste-oil palm shell (OPS),”
Building
and Environment
. 39(4), 441 – 448
.
Mannan, M.A. and Ganapathy, C.
(
2004
b).
“
Destructive and non-destructive properties of OPS (oil palm shell)
lightweight concrete,”
Journal of Civil Engineering Research and Practice
. 1(2), 55-66.
Olanipekun, E. A., Olusola, K.O. and Ata, O
,
(2006). “A comparative study of concrete properties using coconut
shell and palm kernel shell as coarse aggregates.”
Building and Environment
. 41(3), 297-301.
Olateju, O.T. (1992). “The efficacy of lightweight aggregate from palm kernel shells.”
Journal of Housing
Science
. 15(4): 263–76.
Saleem, M., Shameemt, M., Hussain, S.E. and Maslehuddint, M. (1996). “Effect of moisture, chloride and
sulphate contamination on the electrical resistivity of Portland cement concrete,”
Construction and
Building Materials
. 10(3), 209-214.
Teo, D.C.L., Mannan, M.A. and Kurian, V.J. (2006) “Influence of site curing on bond properties of reinforced
lightweight concrete,”
Journal of Civil Engineering Research and Practice
. 3(1), 9-19.
Teo, D.C.L., Mannan, M.A., Kurian, V.J. and Ganapathy, C. (2007). “Lightweight concrete made from oil palm
shell (OPS): Structural bond and durability properties,”
Building and Environment
. 42(7), 2614-2621.
Vipulanandan, C. and Garas, V. (2008). “Electrical resistivity, pulse velocity, and compressive properties of
carbon fiber-reinforced cement mortar,”
Journal of Materials in Civil Engineering
. 20(2), 93-101.
