1 |
KS, Testing method for resistance of concrete to rapid freezing and thawing(KS F 2456), Korea Standards Association
|
2 |
An Ji-Hwan et al, 2008. Estimating Concrete Compressive Strength Using Shear Wave Velocity. International Journal of Highway Engineering, Vol. 10. pp171-178
|
3 |
An Ji-Hwan et al, 2009. The effect of curing temperature on the relationship between shear wave velocity and concrete compressive strength using the same cement paste, International Journal of Highway Engineering, Vol. 11. pp67-74
|
4 |
An Ji-Hwan et al, 2011. An Experimental Study on Relation between compressive strength and Shear Wave velocity for characteristics of coarse aggregate size and type of cement, International Journal of Highway Engineering, Vol. 13. pp1-8
|
5 |
Yun. et al, 1998. Management System Established Plan to Improve Relibility of Nondestructive Test for Concrete Structures, Housing Research Institute Korea National Housing Corporation
|
6 |
ASTM, Standard Test Method for Fundamental Transverse, Longitudinalm and Torsional Resonant Frequencies of Concrete Specimens(ASTM C 215-08)
|
7 |
ASTM, Standard Test Method for Resistance of Concrete to Rapid Freezing and Thawing(ASTM C 666/C 666M-08)
|
8 |
Mi-Ra Cho, Sung-Ho Joh. etc.,(2007), Nondestructive In-Place Strength Profiling of Concrete Pavements by Resonance Search Technique 86th Annual Meeting of the Transportation Research Board, Washington, D.C.
|
9 |
T.S.Van Dam. et. al.(2002), Guidelines for Detection, analysis, and treatment of materials-related distress in concrete pavementvolume 1:Final report, FHWA-RP-01-153, Federal Highway Administration
|
10 |
John M. Reynolds(1997), An Introduction to Applied and Environmental Geophysics, John Wiley & Sons
|
11 |
Jeseph F. Lamond, James H. Pielert(2006), Significance of Tests and Properties of Concrete & Concrete-Making Materials STP169D, ASTM
|