(2011), Composite cement reinforced coconut fiber: Physical andmechanical properties
and fracture behavior, Australian Journal of Basic and Applied Science, 5(7), 1228-1240.
(1999), Design Consideration for Steel Fiber Reinforced Concrete, ACI 544.4R, 12-24.
(1997), Shear tests of fiber concrete beams without stirrups, ACI Structural Journal,
94(1), 68-76.
(2008), Strength, porosity and corrosion resistance of ternary blend Portland cement,
rice husk ash and fly ash mortar, Construction and Building Materials, 22(8), 1601-1606.
(2012), Seismic performance evaluation of reinforced concrete columns by applying
steel fiber-reinforced mortar at plastic hinge region, Journal of the Korea Concrete
Institut, (in Korean), 24(3), 241-248.
(2014a), Experimental Study on Tension-Hardening and Softening Characteristics in
Reinforced Mortar with CSA Expansion Agent, Journal of the Korea Institute for Structural
Maintenance and Inspection, (in Korean), 18(1), 101-110.
(2014b), Evaluation of Mechanical Properties and Crack Resistant Performance in Concrete
with Steel Fiber Reinforcement and CSA Expansive Admixture, Journal of the Korea Institute
for Structural Maintenance and Inspection, 18(1), 75-83.
(2010), Analysis of carbonation behavior in concrete using neural network algorithm
and carbonation modeling, Cement and Concrete Research, 40(1), 119-127.
(2012), Strain-Hardening Cementitious Composites with Low Viscosity Suitable for
Grouting Application, Journal of the Korea Institute for Structural Maintenance and
Inspection, 16(1), 55-63.
(1998), Engineered Cementitious Composites - Tailored Composites through Micromechanical
Modeling, Fiber Reinforced Concrete Present and the Future, 64-97.
(2014), Seismic performance of coconut-fibrereinforced- concrete columns with different
reinforcement configurations of coconut-fibre ropes, Construction and Building Material,
70(15), 681-690.
(2013), Experimental investigations on coconut-fibre rope tensile strength and pullout
from coconut fibre reinforced concrete, Construction and Building Materials, 41, 681-690.
(2009), The effect of rice husk ash on mechanical properties and durability of sustainable
concretes, International Journal of Civil Engineering, 7(2), 83-91.
(2009), Effect of grinding on chemical and physical properties of rice husk ash,
International Journal of Minerals Metallurgy and Materials, 16(2), 242-247.
(1992), Fiber reinforced cement composite
(2010), Application of Coir Fibers as Concrete Composites for Disaster Prone Structures
- R&D Project Report, Kongu Engineering college, Perundurai
(2005), A Study on analytical technique of chloride diffusion considering characteristics
of mixture design for high performance concrete using mineral admixture, Journal of
KSC, (in Korean), 25(1A), 213-223.
(1997), The Concrete Way to Development, FIP Symposium
1997, Johannesburg, South Africa, 2, 621
(1999), Modeling chloride diffusion in concrete: Effect of fly ash and slag, Cement
and Concrete Research, 29(4), 487-495.