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1 
AASHTO T 240 (2013). Standard method of test for effect of heat and air on a moving film of asphalt binder (Rolling thin-film oven test).
2 
AASHTO T 283 (2014). Standard method of test for resistance of compacted asphalt mixtures to moisture-induced damage.
3 
AASHTO TP 91 (2015). Determining asphalt binder bond strength by means of the Binder Bond Strength (BBS) test.
4 
Aguiar-Moya, J. P., Salazar-Delgado, J., Baldi-Sevilla, A., Leiva- Villacorta, F. and Loria-Salazar, L. (2015). "Effect of aging on adhesion properties of asphalt mixtures with the use of bitumen bond strength and surface energy measurement tests." Journal of the Transportation Research Board, No. 2505, Transportation Research Board, Washington, D.C., pp. 57-65.DOI
5 
ASTM D 2872 (2019). Standard test method for effect of heat and air on a moving film of asphalt (Rolling thin-film oven test).
6 
ASTM D 454 (2004). Standard test method for rubber deterioration by heat and air pressure.
7 
ASTM D 572 (2004). Standard test method for rubber-deterioration by heat and oxygen.
8 
Bahia, H. U., Hanz, A., Kanitpong, K. and Wen, H. (2007). Testing methods to determine aggregate/asphalt adhesion properties and potential moisture damage, WHRP 07-02, Wisconsin Highway Research Program, Madison, Wisconsin.
9 
Jo, M. H., Yun, S. U. and Lee, Y. H. (2013). "Asphalt concrete pavement pothole: Repair method." Magazine of Korea Society of Road Engineers, Vol. 15, No. 2, pp. 43-51 (in Korean).
10 
Jung, J. H., Cho, B. J., Park, N. W. and Kim, K. W. (2007). "Study of artificial aging procedure for asphalt mixtures." Int. J. Highw. Eng., KSRE, Vol. 9, No. 4, pp. 45-54 (in Korean).
11 
Kim, K. N., Jo, S. H., Kim, N. S. and Lee, D. S. (2018). "A study on performance evaluation of new asphalt surface reinforcement method (ASRM) for preventive maintenance." J. Korean Soc. Civ. Eng., KSCE, Vol. 38, No. 2, pp. 311-317 (in Korean).
12 
Kim, K. N., Kim, S. H. and Kim, N. S. (2017). "A study on algorithm for materials take-off using pothole detection system." J. Korean Soc. Civ. Eng., KSCE, Vol. 37, No. 3, pp. 603-610 (in Korean).
13 
Kim, S. W., Lee, D. H., Lee, S. T., Kim, Y. S. and Kim, K. W. (2015). "Characterization of asphalt mixture at the point of pothole occurrence." Proc. of the KSRE Conf., KSRE, p. 27 (in Korean).
14 
Kim, Y. S. and Kim, N. S. (2018). "Evaluation of anti-stripping performance in asphalt concrete using byproduct ash from circulating fluidized bed boiler." J. Korean Soc. Civ. Eng., KSCE, Vol. 38, No. 2, pp. 319-325 (in Korean).
15 
Korea Institute of Civil Engineering and Building Technology (KICT) (2012). Development of road pavement construction quality management system against climate change (2nd Final Report) (in Korean).
16 
KS F 2398 (2017). Standard method for resistance of compacted asphalt mixtures to moisture induced damage (in Korean).
17 
Lee, K. H., Cho, K. R., Lee, B. S. and Song, T. S. (2008). "Evaluation of dynamic modulus based on aged asphalt binder." Journal Korean Soc. Hazard Mitig., Vol. 8, No. 3, pp. 51-58 (in Korean).
18 
Little, D. N. and Jones, D. R. IV. (2003). Chemical and mechanical mechanisms of moisture damage in hot mix asphalt pavements, National Seminar in Moisture Sensitivity, San Diego, California.
19 
National Assembly (2013). Pothole caused by the use of sub-standard materials is need to fundamental solution urgently, Ministry of Land, Infrastructure and Transport Committee (in Korean).
20 
Read, J. and Whiteoak, D. (2003). The shell bitumen handbook, Shell Bitumen, Surrey.
21 
Shin, O. C. (2017). Effect of change in adhesive and cohesive characteristics between asphalt binder and aggregate due to moisture on pavement material damage, Ph.D. Dissertation, Kyung Hee University (in Korean).
22 
Yener, E. and Hinislioglu, S. (2014). "Effects of exposure time and temperature in aging test on asphalt binder properties." International Journal of Civil and Structural Engineering, Vol. 5, No. 2, pp. 112-124.