1 |
Lee, C.D., Hong, G.H., Seo, C.H., and Yu, T.D., "Verfication of load-carring capacity of steel fiber reinforced concrete slab-on-grad", KCI Fall Conference, 2007, pp.337-340 (in Korean).
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2 |
Jung, W.K., Hong, G.H., Lee, C.D., Seo, C.H., and Yu, T.D., "Experiment study about structural performance of SFRC slabs on grade", KCI Fall Conference, 2007, pp.197-200 (in Korean).
|
3 |
Technical Report (TR) 34, Concrete industrial ground floors: A guide to design and construction, 3rd Edition, Concrete Society, Crowthorne, 2003, UK.
|
4 |
JSCE SF-4, Method of tests for flexural strength and flexural toughness of SFRC, The Japanese Society of Civil Engineers(JSCE), Japan Concrete Institute, 1985, Japan.
|
5 |
Technical Report (TR) 34, Concrete industrial ground floors: A guide to design and construction, 4th Edition, Concrete Society, Crowthorne, 2013, UK.
|
6 |
Westergaad, H.M., "Computation of stresses in concrete roads", Proceedings of the 5th Annual Meeting of the Highway Research Board, Vol.5, Part.1, 1925, pp.90-112.
|
7 |
Westergaad, H.M., "Stresses in concrete pavements computed by theoretical analysis", Public Roads, Vol.7, No.2, 1926.
|
8 |
Meyerhof, G.G., "Load carrying capacity of concrete pavement", Journal of the Soil Mechanics and Foundations Divisions, Proceedings of the American Society of Civil Engineers, Vol.88, June 1962, pp.89-166.
|
9 |
ACI 360R-10, Guide to design of slabs-on-ground, American Concrete Institute (ACI), Farmington Hills, 2013, MI.
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10 |
ASTM C 1609/C 1609M-07, Standard test method for flexural performance of fiber reinforced concrete (using beam with third-point loading), American Society of Testing Materials (ASTM), West Conshohocken, 2007, PA.
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11 |
BS EN 14651:2005, Test method for metallic fibre concretemeasuring the flexural tensile strength (limit of proportionality, residual), European Committee for Standardization(CEN), Brussels, 2007, UK.
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