|Table of Contents|

[1] Zhang Jiupeng, Huang Xiaoming,. Viscoelastic model for asphalt mixture under repeated haversine load [J]. Journal of Southeast University (English Edition), 2009, 25 (4): 523-526. [doi:10.3969/j.issn.1003-7985.2009.04.022]
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Viscoelastic model for asphalt mixture under repeated haversine load()
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Journal of Southeast University (English Edition)[ISSN:1003-7985/CN:32-1325/N]

Volumn:
25
Issue:
2009 4
Page:
523-526
Research Field:
Traffic and Transportation Engineering
Publishing date:
2009-12-30

Info

Title:
Viscoelastic model for asphalt mixture under repeated haversine load
Author(s):
Zhang Jiupeng1 Huang Xiaoming2
1Key Laboratory for Special Area Highway Engineering of Ministry of Education, Chang’an University, Xi’an 710064, China
2School of Transportation, Southeast University, Nanjing 210096, China
Keywords:
asphalt mixture permanent deformation mechanics model repeated haversine load
PACS:
U416.2
DOI:
10.3969/j.issn.1003-7985.2009.04.022
Abstract:
The series-wound dashpot of the Burgers model is modified by introducing the strain hardening parameter, and the new model is considered as a combination of the modified dashpot and the Van Der Poel model. The cyclical pulse load consisting of a haversine load time and a rest period is adopted to simulate the actual vehicle load, and the permanent strain model under the repeated load is derived from the rheological and viscoelastic theories. Subsequently, the model is validated by the results of uniaxial repeated load permanent deformation tests of three asphalt mixtures. It is indicated that the proportion of residual viscoelastic strain to permanent strain decreases gradually with the load cycles, and only accounts for 2% to 3% during most of the loading period. If the rest period is long, the residual viscoelastic strain is little. The rest period of the actual vehicle load may be long enough, so the residual viscoelasticity can be ignored and the simplified model can be obtained. The proposed model can well describe the permanent deformation of asphalt mixtures under repeated load.

References:

[1] Shen Jin’an. Road performance of asphalt and asphalt mixture [M]. Beijing: China Communications Press, 2001.(in Chinese)
[2] Deng Xuejun, Huang Xiaoming. Principles and design methods of pavement [M]. Beijing: China Communications Press, 2001.(in Chinese)
[3] Zhang Xiaoning. Viscoelastic mechanics principles and application of asphalt and asphalt mixture [M]. Beijing: China Communications Press, 2006.(in Chinese)
[4] Sides A, Uzan J, Perl M. A comprehensive viscoelasto-plastic characterization of sand asphalt compressive and tensile cyclic loading [J]. Test Evaluate, 1985, 13(1): 49-56.
[5] Witczak M W, Kaloush K, Pellinen T. Simple performance test for superpave mix design [C]//Proceedings of the 80th Annual Meeting of the Transportation Research Board. Washington, DC, 2001: 1-18.
[6] Huang Xiaoming, Zhang Jiupeng, Li Hui. Development of a mechanics model for three-phase permanent deformation of asphalt mixture under repeated load[C]//Proceedings of the 80th Annual Meeting of the Transportation Research Board. Washington, DC, 2008: 1-14.
[7] Zhang Jiupeng, Huang Xiaoming, Li Hui. Research on permanent deformation of asphalt mixture under repeated load[J]. Journal of Southeast University: Natural Science Edition, 2008, 38(3): 511-515.(in Chinese)
[8] Wang Hou-Yu. A practical creep compliance model of asphalt mixtures and its application [J]. Acta Mechanica Solida Sinica, 2002, 32(2): 232-236.
[9] Judycki J. Nonlinear viscoelastic behavior of conventional and modified asphaltic concrete under creep [J]. Mater Struct, 1992, 25(1): 95-101.

Memo

Memo:
Biography: Zhang Jiupeng(1983—), male, doctor, lecturer, zhjiupeng@163.com.
Foundation items: The National Natural Science Foundation of China(No.50608006), Program for New Century Excellent Talents in University(No.NCET-07-0120).
Citation: Zhang Jiupeng, Huang Xiaoming. Viscoelastic model for asphalt mixture under repeated haversine load[J]. Journal of Southeast University(English Edition), 2009, 25(4): 523-526.
Last Update: 2009-12-20