Key Laboratory of Highway Construction and Maintenance Technology in Loess Region of the Ministry of Transport

Taiyuan, China

Key Laboratory of Highway Construction and Maintenance Technology in Loess Region of the Ministry of Transport

Taiyuan, China

Time filter

Source Type

Zhang J.P.,Key Laboratory of Highway Construction and Maintenance Technology in Loess Region of the Ministry of Transport | Zhang J.P.,Chang'an University | Liu G.Q.,Chang'an University | Wang P.Z.,Chang'an University
Advanced Materials Research | Year: 2014

EACCP is a new-type cement concrete pavement with better skid-resistance and less traffic noise. In this paper, skid-resistance and noise-reducing performance of EACCP are tested and analyzed by laboratory and outdoor tests. The results indicate that the relationship between BPN and EAD is followed the parabola variation laws. With the increase of EAD, TD decreases. And skid-resistance value exists the extremum. If BPN is targeted as skid-resistance optimization goal for pavement surface features, the optimized EAD is existed and approximately to 40∼60. The relationship between BPN and TD is also followed the parabola variation laws which also suggests the existence of the optimized TD scope approximately to 0.8∼1.0mm.The relationship between TD and EAD can be simulated by index variation laws. With the increase of EAD, TD decreases, which proves the evident noise-reducing performance of EACCP. And the reduction amplitude of noise increases with vehicular acceleration. © (2014) Trans Tech Publications, Switzerland.

Loading Key Laboratory of Highway Construction and Maintenance Technology in Loess Region of the Ministry of Transport collaborators
Loading Key Laboratory of Highway Construction and Maintenance Technology in Loess Region of the Ministry of Transport collaborators