Due to imperfect surface profiles, heavy vehicles moving at high speed on flexible pavement structures oscillate in the vertical axis. This phenomenon induces dynamic loads, which oscillate at lower and higher values than the average load associated with static load considered with most pavement analysis and design applications. Higher loads applied to flexible pavements are likely to significantly reduce pavement service life. A new multibody dynamic truck model was used to study heavy vehicle wheel load for various pavement profiles of varying international roughness index (IRI). The modelled heavy vehicle wheel load response were used to calculate the dynamic load coefficient, and a relationship with IRI was proposed. On the basis of thi...
A software package, called IntPave, an Integrated Pavement Damage Analyzer, was developed at the Cen...
A mechanistic roughness performance model that takes into account vehicle dynamics was developed in ...
In an attempt to better understand the interaction between heavily loaded trucks and the pavement st...
Due to imperfect surface profiles, heavy vehicles moving at high speed on flexible pavement structur...
The interaction between road surface roughness and heavy vehicles results in dynamic wheel loading (...
Due to the fact that pavement surfaces are not ideally even, dynamic loads of vehicle axles deviate ...
The interaction between heavy vehicle and road surface roughness results in vibrations that detract ...
The purpose of this research was to evaluate the dynamic variation in asphalt pavement critical resp...
The interaction between heavy vehicles and rigid pavements has been analyzed in this research, with ...
Pavement responses are affected by the magnitude and frequency of dynamic loads generated by vehicle...
Advancing technology has changed the configuration and load carrying capacities of trucks. Pavement ...
A concept for a mechanistic-based performance model for flexible pavement was developed that conside...
Pavement is a structure that is directly exposed to very severe external actions such as traffic loa...
The mechanistic empirical method of flexible pavement design/assessment uses a large number of numer...
A software package, called IntPave, an Integrated Pavement Damage Analyzer, was developed at the Cen...
A software package, called IntPave, an Integrated Pavement Damage Analyzer, was developed at the Cen...
A mechanistic roughness performance model that takes into account vehicle dynamics was developed in ...
In an attempt to better understand the interaction between heavily loaded trucks and the pavement st...
Due to imperfect surface profiles, heavy vehicles moving at high speed on flexible pavement structur...
The interaction between road surface roughness and heavy vehicles results in dynamic wheel loading (...
Due to the fact that pavement surfaces are not ideally even, dynamic loads of vehicle axles deviate ...
The interaction between heavy vehicle and road surface roughness results in vibrations that detract ...
The purpose of this research was to evaluate the dynamic variation in asphalt pavement critical resp...
The interaction between heavy vehicles and rigid pavements has been analyzed in this research, with ...
Pavement responses are affected by the magnitude and frequency of dynamic loads generated by vehicle...
Advancing technology has changed the configuration and load carrying capacities of trucks. Pavement ...
A concept for a mechanistic-based performance model for flexible pavement was developed that conside...
Pavement is a structure that is directly exposed to very severe external actions such as traffic loa...
The mechanistic empirical method of flexible pavement design/assessment uses a large number of numer...
A software package, called IntPave, an Integrated Pavement Damage Analyzer, was developed at the Cen...
A software package, called IntPave, an Integrated Pavement Damage Analyzer, was developed at the Cen...
A mechanistic roughness performance model that takes into account vehicle dynamics was developed in ...
In an attempt to better understand the interaction between heavily loaded trucks and the pavement st...