Journal of Engineering and Applied Sciences
Year:
2011
Volume:
6
Issue:
6
Page No.
336 - 345
Effects of Steel Fibers on Properties of Concrete for Energy Storage Application
Authors :
A.A. Adeyanju
and
K. Manohar
References
ACI Committee, 1982. State-of-the art report in fiber reinforced concrete. ACI 554 IR-82, Detroit, MI., USA.
ASTM C1018-89, 1991. Standard test method for flexural toughness and first crack strength of fibre reinforced concrete (Using beam with third-point loading). Book of ASTM Standards, Part 04.02, American Society for Testing and Materials, Philadelphia, USA., pp: 507-513.
Adeyanju, A.A, T.O. Oni and D.O. Akindele, 2010. Experimental determination of thermo physical properties of concrete for thermal energy storage. Int. J. Eng. Applied Sci., 5: 282-289.
CrossRef | Direct Link | Adeyanju, A.A. and K. Manohar, 2009. Theoretical and experimental investigation of heat transfer in packed beds. Res. J. Applied Sci., 4: 166-177.
CrossRef | Direct Link | Balaguru, P.N. and S.P. Shah, 1992. Fiber Reinforced Cement Composites. McGraw Hill International, New York, USA., ISBN-13: 9780070564008, pp: 530.
JCI, 1983. JCI standards for test methods of fiber reinforced concrete. Method of Test for Flexural Strength and Flexural Toughness of Fiber Reinforced Concrete (Standard SF4), Japan Concrete Institute, Japan, pp: 45-51.
Johnston, C.D., 1974. Steel fiber reinforced mortar and concrete: A review of mechanical properties. Fiber Reinforced Concrete ACI-SP 44, Detroit, USA.
Johnston, C.D., 1982. Definition and measurement of flexural toughness parameters for fiber reinforced concrete. Cem. Concr. Aggregate, 4: 8-8.
CrossRef | Direct Link |