Flexible pavement responses to different loading amplitudes considering layer interface condition and lateral shear forces

Yoo, Pyeong Jun; Al-Qadi, Imad L.; Elseifi, Mostafa A.; Janajreh, Ibrahim

doi:10.1080/10298430500516074

Cited by 91 publications

(28 citation statements)

References 6 publications

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“…The challenges for a FEM simulation result from large deformation of tyre rubber, transient contact conditions, intricate structures of tyres and strong nonlinear friction properties. Many authors utilised 3-dimentional FEM programs to simulate the interaction effects between tyre rubber and pavement surface on the response of pavement surface (Zaghloul and White, 1993;Uddin et al 1994;Yoo et al, 2006). Although the FEM simulations have presented a successful application in pavement analysis, most of these numerical simulations are still unsuitable for application to practical analysis, because they just served their originators adequately in attaining their limited objectives.…”

Section: Discussionmentioning

confidence: 98%

Effects of pavement texture on pavement friction: a review

Huang¹,

Huang²

2014

IJVD

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Although the sliding friction of vehicle tyres was first studied a long time ago, some fundamental aspects of the interaction mechanism and phenomenon between pavement texture and tyre tread still remain unclear. At present, most of the theoretical functions used to predict the interaction are based on experimental regressive analysis. Therefore, understanding of the interaction mechanism is rather limited. On the other hand, traffic accidents are serious problems that cause the loss of both life and property. Some fatal accidents were found to result from deficiency in pavement friction. Thus, a review and summary of the present research works relevant to pavement texture and pavement friction are provided and some future research work is discussed.

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Section: Discussionmentioning

confidence: 98%

Effects of pavement texture on pavement friction: a review

Huang¹,

Huang²

2014

IJVD

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“…Therefore, to simulate a moving load with different speeds, the tyrepavement contact area could progressively be shifted along the wheel path in the direction of traffic until a single tyre pass is completed (Yoo 2006, Liao 2007, Wang 2011. Five vehicle speeds considered were 20, 40, 60, 80 and 100 km/h.…”

Section: Dynamic Analysismentioning

confidence: 99%

“…For predicting the time-dependent response using FEM, to simplify the analysis of flexible pavement by using FEM, linear elastic and time-independent material behaviour for the base and subgrade layer and linear viscoelastic material property for the asphalt layer were used (Yoo 2006, Kim et al 2009, De Araújo Jr. et al 2010, Wang 2011, Kim 2011. It is well known that base and subbase soils are not elastic and result in permanent deformation under stationary loads.…”

Section: Materials Characterisationmentioning

confidence: 99%

Numerical comparison of flexible pavement dynamic response under different axles

Sarkar

2015

International Journal of Pavement Engineering

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A three-dimensional finite element model was utilised to examine the flexible pavement dynamic response under single, tandem and tridem axles at different speeds. Using two different hot-mix asphalt (HMA) layer thicknesses, 15.2 and 25.4 cm, the dynamic effects of moving axles were investigated on critical responses. These responses include the tensile strain at the bottom of asphalt layer, compressive strain on the top of subgrade and tensile and compressive strain on the surface layer. In this study, the HMA layer and other layers were characterised as linear viscoelastic and elastic material, respectively. Since this research focuses specifically on the time and dynamic effects, considering the transient dynamic loading and inertia forces, implicit dynamic analysis was done. The important findings are as follows.(1) Strains induced by tridem axles could be greater than tandem axles or even equal at different speeds.(2) It cannot be stated that axles always induce greater critical response value to road systems at lower speed because at higher speed they can also induce greater critical response value in pavements than that at lower speed. (3) Changing trend and changing rate of strains with speed are strongly affected by pavement thickness. In general, the effects of different axle configurations are strongly affected by moving speed and surface layer thickness.

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“…However, the real contact area is not a complete circle. Especially, in the case of wide-base tire, the contact area gets more oriented in the width and less in length comparing with that of conventional tires [ 30 ]. In our work, tire contact area is assumed to be a rectangle with a constant width.…”

Section: Numerical Model Of Wim Systemmentioning

confidence: 99%

Effects of Sensor Location on Dynamic Load Estimation in Weigh-in-Motion System

Qin

Lin

Cao

et al. 2018

Sensors

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In recent years, weigh-in-motion systems based on embedded sensor networks have received a lot of attention. However, how to improve the accuracy of multi-sensor weigh-in-motion (WIM) systems while keeping costs low remains a challenge. In this paper, a numerical simulation method is presented to analyze the relationship between sensor location and the accuracy of static weight estimation. The finite element model of a WIM system is developed, which consists of three parts: a pavement model, a moving load model and two types of sensor models. Analysis of simulation results shows that the ability of sensing dynamic load is closely related to the installation depth of sensors and pavement material. Moreover, the distance between the moving wheel and sensors has a great impact on estimating performance. Gaussian curve fitting could be used to reduce weighing error within a limited range. Our work suggests that much more attention should be paid to the design of the sensor layout of a WIM system.

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Flexible pavement responses to different loading amplitudes considering layer interface condition and lateral shear forces

Cited by 91 publications

References 6 publications

Effects of pavement texture on pavement friction: a review

Effects of pavement texture on pavement friction: a review

Numerical comparison of flexible pavement dynamic response under different axles

Effects of Sensor Location on Dynamic Load Estimation in Weigh-in-Motion System

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