How to cite this paper
MansourKhaki, A., Samdzadeh, A & Jebalbarezi, M. (2015). Study of loading waveform, loading duration, rest period and stress level on fatigue life of asphalt mixtures.Engineering Solid Mechanics, 3(2), 93-102.
Refrences
Abo-Qudais, S., & Shatnawi, I. (2007). Prediction of bituminous mixture fatigue life based on accumulated strain. Construction and Building Materials, 21(6), 1370-1376.
Al-Khateeb, G. G., & Ghuzlan, K. A. (2014). The combined effect of loading frequency, temperature, and stress level on the fatigue life of asphalt paving mixtures using the IDT test configuration. International Journal of Fatigue, 59, 254-261.
Aliha, M. R. M., Behbahani, H., Fazaeli, H., & Rezaifar, M. H. (2014). Study of characteristic specification on mixed mode fracture toughness of asphalt mixtures. Construction and Building Materials, 54, 623-635.
Ameri, M., Mansourian, A., Heidary Khavas, M., Aliha, M. R. M., & Ayatollahi, M. R. (2011). Cracked asphalt pavement under traffic loading–A 3D finite element analysis. Engineering Fracture Mechanics, 78(8), 1817-1826.
Ameri, M., Mansourian, A., Pirmohammad, S., Aliha, M. R. M., & Ayatollahi, M. R. (2012). Mixed mode fracture resistance of asphalt concrete mixtures. Engineering Fracture Mechanics, 93, 153-167.
Ameri, M., Mansourian, A. (2007). Using the indirect tensile test to present a model to predict the fatigue life of asphalt. Journal of Transportation, Fourth year, NO1, Spring.
Barksdale, R. D. (1971). Compressive stress pulse times in flexible pavements for use in dynamic testing. Highway research record. 345, HRB, National Research Council, Washington, D.C. 32–44.
Deacon, J. A. (1965). Fatigue of asphalt concrete (Doctoral dissertation, Institute of Transportation and Traffic Engineering, University of California).
Fakhri, M. (1997). Characterisation of asphalt Pavement materials. University of New South Wales, Sydney, Austeralia.
Hsu, T. W., & Tseng, K. H. (1996). Effect of rest periods on fatigue response of asphalt concrete mixtures. Journal of Transportation Engineering, 122(4), 316-322.
Hu, X., Zhou, F., Hu, S., & Walubita, L. F. (2010). Proposed loading waveforms and loading time equations for mechanistic-empirical pavement design and analysis. Journal of Transportation Engineering, 136(6), 518-527.
Huang, Y. H. (2004). Pavement analysis and design. Prentice Hall, Second edition.
Khalid, H. A. (2000). A comparison between bending and diametral fatigue tests for bituminous materials. Materials and structures, 33(7), 457-465.
Kim, K. W., Kweon, S. J., Doh, Y. S., & Park, T. S. (2003a). Fracture toughness of polymer-modified asphalt concrete at low temperatures. Canadian Journal of Civil Engineering, 30(2), 406-413.
Kim, Y. R., Little, D. N., & Lytton, R. L. (2003). Fatigue and healing characterization of asphalt mixtures. Journal of Materials in Civil Engineering, 15(1), 75-83.
Li, X. J., & Marasteanu, M. O. (2010). Using semi circular bending test to evaluate low temperature fracture resistance for asphalt concrete. Experimental mechanics, 50(7), 867-876.
Monismith, C. L., & Deacon, J. A. (1969). Fatigue of Asphalt Paving Mixtures. ASCE Transportation Engineering Journal, 95(2), 317-346.
Porter, B. W., & Kennedy, T. W. (1975). Comparison of fatigue test methods for asphalt materials (No. CFHR-3-9-72-183-4 Intrm Rpt.). University of Texas at Austin. Research Report 183–4, Project 3-9-72-183.
Pell, P. S., McCarthy, P. F., & Gardner, R. R. (1961). Fatigue of bitumen and bituminous mixes. International Journal of Mechanical Sciences, 3(4), 247-267.
Raithby, K. D., & Sterling, A. B. (1972). Some effects of loading history on the fatigue performance of rolled asphalt. Transport and Road Research Laboratory, Report 496, 7-9.
Francken, L. (Ed.). (2004). Bituminous binders and mixes (Vol. 17). CRC Press.
Tangella, S. C. S. R., Carus, J., Deacon, J. A. & Monismith, C. L. (1990). Fatigue response of asphalt-aggregate mixes. Washington: Strategic Highway Research Program, SHRP-A-404.
Wen, H. (2001). Fatigue performance evaluation of WesTrack asphalt mixtures based on viscoelastic analysis of indirect tensile test. Doctor of Philosophy Thesis, North Carolina State University.
Witczak, M. W., Kaloush, K. T.Pellinen, K. & El-Basyouny, M. (2002). Simple performance test for superpave mix design. NCHRP 465.
Zegeye, E. T., Moon, K. H., Turos, M., Clyne, T. R., & Marasteanu, M. O. (2012). Low temperature fracture properties of polyphosphoric acid modified asphalt mixtures. Journal of Materials in Civil Engineering, 24(8), 1089-1096.
Al-Khateeb, G. G., & Ghuzlan, K. A. (2014). The combined effect of loading frequency, temperature, and stress level on the fatigue life of asphalt paving mixtures using the IDT test configuration. International Journal of Fatigue, 59, 254-261.
Aliha, M. R. M., Behbahani, H., Fazaeli, H., & Rezaifar, M. H. (2014). Study of characteristic specification on mixed mode fracture toughness of asphalt mixtures. Construction and Building Materials, 54, 623-635.
Ameri, M., Mansourian, A., Heidary Khavas, M., Aliha, M. R. M., & Ayatollahi, M. R. (2011). Cracked asphalt pavement under traffic loading–A 3D finite element analysis. Engineering Fracture Mechanics, 78(8), 1817-1826.
Ameri, M., Mansourian, A., Pirmohammad, S., Aliha, M. R. M., & Ayatollahi, M. R. (2012). Mixed mode fracture resistance of asphalt concrete mixtures. Engineering Fracture Mechanics, 93, 153-167.
Ameri, M., Mansourian, A. (2007). Using the indirect tensile test to present a model to predict the fatigue life of asphalt. Journal of Transportation, Fourth year, NO1, Spring.
Barksdale, R. D. (1971). Compressive stress pulse times in flexible pavements for use in dynamic testing. Highway research record. 345, HRB, National Research Council, Washington, D.C. 32–44.
Deacon, J. A. (1965). Fatigue of asphalt concrete (Doctoral dissertation, Institute of Transportation and Traffic Engineering, University of California).
Fakhri, M. (1997). Characterisation of asphalt Pavement materials. University of New South Wales, Sydney, Austeralia.
Hsu, T. W., & Tseng, K. H. (1996). Effect of rest periods on fatigue response of asphalt concrete mixtures. Journal of Transportation Engineering, 122(4), 316-322.
Hu, X., Zhou, F., Hu, S., & Walubita, L. F. (2010). Proposed loading waveforms and loading time equations for mechanistic-empirical pavement design and analysis. Journal of Transportation Engineering, 136(6), 518-527.
Huang, Y. H. (2004). Pavement analysis and design. Prentice Hall, Second edition.
Khalid, H. A. (2000). A comparison between bending and diametral fatigue tests for bituminous materials. Materials and structures, 33(7), 457-465.
Kim, K. W., Kweon, S. J., Doh, Y. S., & Park, T. S. (2003a). Fracture toughness of polymer-modified asphalt concrete at low temperatures. Canadian Journal of Civil Engineering, 30(2), 406-413.
Kim, Y. R., Little, D. N., & Lytton, R. L. (2003). Fatigue and healing characterization of asphalt mixtures. Journal of Materials in Civil Engineering, 15(1), 75-83.
Li, X. J., & Marasteanu, M. O. (2010). Using semi circular bending test to evaluate low temperature fracture resistance for asphalt concrete. Experimental mechanics, 50(7), 867-876.
Monismith, C. L., & Deacon, J. A. (1969). Fatigue of Asphalt Paving Mixtures. ASCE Transportation Engineering Journal, 95(2), 317-346.
Porter, B. W., & Kennedy, T. W. (1975). Comparison of fatigue test methods for asphalt materials (No. CFHR-3-9-72-183-4 Intrm Rpt.). University of Texas at Austin. Research Report 183–4, Project 3-9-72-183.
Pell, P. S., McCarthy, P. F., & Gardner, R. R. (1961). Fatigue of bitumen and bituminous mixes. International Journal of Mechanical Sciences, 3(4), 247-267.
Raithby, K. D., & Sterling, A. B. (1972). Some effects of loading history on the fatigue performance of rolled asphalt. Transport and Road Research Laboratory, Report 496, 7-9.
Francken, L. (Ed.). (2004). Bituminous binders and mixes (Vol. 17). CRC Press.
Tangella, S. C. S. R., Carus, J., Deacon, J. A. & Monismith, C. L. (1990). Fatigue response of asphalt-aggregate mixes. Washington: Strategic Highway Research Program, SHRP-A-404.
Wen, H. (2001). Fatigue performance evaluation of WesTrack asphalt mixtures based on viscoelastic analysis of indirect tensile test. Doctor of Philosophy Thesis, North Carolina State University.
Witczak, M. W., Kaloush, K. T.Pellinen, K. & El-Basyouny, M. (2002). Simple performance test for superpave mix design. NCHRP 465.
Zegeye, E. T., Moon, K. H., Turos, M., Clyne, T. R., & Marasteanu, M. O. (2012). Low temperature fracture properties of polyphosphoric acid modified asphalt mixtures. Journal of Materials in Civil Engineering, 24(8), 1089-1096.