References
- Baker, M., Crain, K., and Nazarian, S., 1995. Determination of pavement thickness with a new ultrasonic device. Report 1966-1. El Paso: Center for Highway Materials Research, University of Texas.
- Chen, S., et al., 2008. Comparative analysis of different test methods on asphalt mixture moduli. Journal of Highway and Transportation Research and Development, 25 (8), 6–9.
- Gucunski, N. and Maher, A., 2000. Bridge deck evaluation using portable seismic pavement analyzer (PSPA). Final report FHWA 2000-05. Trenton, NJ: Department of Transportation.
- Gucunski, N. and Maher, A., 2002. Evaluation of seismic pavement analyzer for pavement condition monitoring. Final Report FHWA-NJ-2002-012. Piscataway, NJ: Department of Civil & Environmental Engineering at Rutgers University.
- Guo, Y., 2010. Permanent deformation prediction research of asphalt pavement in high temperature field. Thesis (Master) Shanghai: Tongji University.
- Guo, Y., et al., 2011. The utilization of seismic technology in asphalt pavement property test. Highway Engineering, 36 (1), 112–115.
- Liang, R. and Zeng, S., 2002. Efficient dynamic analysis of Multi layered system during falling weight deflectometer experiments. Journal of Transportation Engineering, 128 (4), 366–374.
- Nazarian, S. and Alvarado, G., 2006. Impact of temperature gradient on modulus of asphaltic concrete layers. Journal of Materials in Civil Engineering., 18 (4), 492–499.
- Nazarian, S., Baker, M., and Crain, K., 1993. Development and testing of a seismic pavement analyzer. Washington, D.C. Strategic Highway Research Program. National Research Council, Report SHRP-H-375.
- Nazarian, S., et al., 2005. Quality management of flexible pavement layers by seismic methods; Research Report 0-1735-3. El Paso, TX: Center for Transportation Infrastructure Systems.
- Research institute of highway ministry transport. T 0713-2000, JTJ 052-2000. Standard Test Methods of Bitumen and Bituminous Mixtures for Highway Engineering. Beijing: China Communications Press.
- Wang, X., et al., 1999. Study of dynamic characteristic of pavement structure. Report Beijing: Research Institute of Highway Ministry of Communications.
- Wu, J., et al., 2012. Rutting resistance of asphalt pavements with fine sand subgrade under full-scale trafficking at high and ambient air temperature. In: 4th international conference on accelerated pavement testing (APT), 19–21 September, California, 265–276. Leiden, Netherlands: Taylor & Francis - Balkema.
- Wu, J., Ye, F., and Wu, Y., 2011. Analysis on three-direction strains of asphalt pavement structure based on accelerated pavement testing. Advanced Materials Research, 255-260, 3426–3431.
- Yuan, D., et al., 1999. Use of seismic methods in monitoring pavement deterioration during accelerated pavement testing with TxMLS. In: 1st international conference on accelerated pavement testing (APT), Reno, Nevada. CS 12–3, 1–30. CD-ROM.
- Zhang, H., Wang, J., and Wu, D., 2011. Rheological course of asphalt mixture and stiffness change. Journal of Harbin Institute of Technology, 43 (12), 124–127.
- Zhang, X., 2006. Principle and application of viscoelastic mechanics of asphalt and asphalt mix. Beijing: China Communications Press.