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American concrete institute (2005) ACI 209.1R Report on Factors Affecting Shrinkage and Creep Hardened Concrete
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2 |
American concrete institute (2007) ACI 207.2R Report on Thermal and Volume Change Effects on Cracking of Mass Concrete
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3 |
American society of testing and materials (2009) ASTM C1581 Standard Test Method for Determining Age at Cracking and Induced Tensile Stress Characteristics of Mortar and Concrete under Restrained Shrinkage
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4 |
American society of testing and materials (2013) ASTM C33 Standard specification for concrete aggregate
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5 |
Chang, T., Lin, S., Lin, H. & Lin, P. (2001) Effects of various fineness moduli of fine aggregate on engineering properties of high-performance concrete, Journal of the Chinese Institute of Engineers, 24(3), 289-300
DOI
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6 |
Jeon, S., Choi, M., Yoo, J., Kim, Y. & Kim, Y. (2008) Quality control of mass and hot weather concrete in the middle east countries, Journal of korea concrete institute, 20(6), 51-57
DOI
ScienceOn
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7 |
Korea agency for technology and standards (2006) KS F 2423 Method of test for split tensile strength of concrete
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8 |
Korea agency for technology and standards (2007) KS F 2402 Method of test for slump of concrete
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9 |
Korea agency for technology and standards (2010) KS F 2405 Standard test method for compressive strength of concrete
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10 |
Korea agency for technology and standards (2007) KS F 2526 Concrete aggregate
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11 |
Kim, G., Choi, H., Lee, E., Nam, J. & Han, M. (2009) A study on the development of flat-ring type restrained test method and performance evaluation for evaluating shrinkage cracking properties of concrete in early age, Journal of Korea Institute for Structural maintenance Inspection, 13(3), 188-196
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12 |
Pickett, G. (1956) Effect of aggregate on shrinkage of concrete and hypothesis concerning shrinkage. Journal of Amaerican Concrete Institute, 52, 581-590
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