Fatigue Performance of Different Thickness Structure Combinations of Hot Mix Asphalt and Cement Emulsified Asphalt Mixtures

Wang, Zhenjun; Cai, Linlin; Wang, Xiaofeng; Xu, Chuang; Yang, Bo‐Suk; Xiao, Jingjing

doi:10.3390/ma11071145

Cited by 15 publications

(5 citation statements)

References 15 publications

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“…In addition, the profile of the fatigue property with the pavement depths are consistent with the chemical, stiffness, and relaxation results. The differences in the fatigue properties with pavement depth may indicate the position where the fatigue damage occurs and the direction of the fatigue crack propagation (51,52).…”

Section: Change In the Rheological Properties Of Bitumenmentioning

confidence: 99%

Differences in the Ageing Behavior of Asphalt Pavements with Porous and Stone Mastic Asphalt Mixtures

Jing

Varveri

Liu

et al. 2021

Transportation Research Record: Journal of the Transportation R

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The degradation of bituminous materials as a result of ageing has a significant effect on asphalt pavement performance. In this study, one porous asphalt (PA) section and one stone mastic asphalt (SMA) asphalt pavement section were designed and constructed in 2014 and exposed to the actual environmental condition. To study the change in the pavement’s mechanical properties, asphalt cores were collected from both test sections annually. The change in stiffness modulus was determined via cyclic indirect tensile tests. To investigate the ageing behavior across the pavement depth, the bitumen was extracted and recovered from 13 mm slices along the depths of the cores. The chemical composition and rheological properties of the field-recovered bitumen, and that of original bitumen aged in standard short- and long-term ageing protocols, were investigated by means of the Fourier Transform Infrared (FTIR) spectrometer and Dynamic Shear Rheometer. The results show that the effect of mineral aggregate packing, and therefore of air-void distribution and connectivity, on the ageing sensitivity of the pavements with time was significant, as the changes in the stiffness of the PA mixture were greater than that of SMA mixture. In addition, the results of field-recovered bitumen show that there is an ageing gradient inside the porous asphalt layer, however, the ageing of SMA mainly happens on the surface of the layer. Finally, the field-recovered and laboratory-aged bitumen results demonstrate a weak relation between field and standard laboratory ageing protocols.

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Section: Change In the Rheological Properties Of Bitumenmentioning

confidence: 99%

Differences in the Ageing Behavior of Asphalt Pavements with Porous and Stone Mastic Asphalt Mixtures

Jing

Varveri

Liu

et al. 2021

Transportation Research Record: Journal of the Transportation R

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“…This function maps the range of each input layer node (-∞, +∞) to that of each hidden layer node (-1, +1). As a differentiable function, it is suitable for training the samples at the node [13]. The output layer uses the linear transfer function purelin to excite and transfer the m input vectors, yielding a prediction matrix.…”

Section: Network Structurementioning

confidence: 99%

A Backpropagation Neural Network-based Flexural-tensile Strength Prediction Model for Asphalt Mixture in Cold Regions under Cyclic Thermal Stress

Qin¹,

Zheng²

2019

MMEP

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This paper attempts to disclose how the varying cold season temperature affects the performance of asphalt mixture i=n cold regions, and create a model to predict the flexuraltensile strength under cyclic thermal stress. For this purpose, the author investigated the influencing factors of asphalt mixture performance in cold regions, such as temperature level and variation in temperature difference, and employed the backpropagation neural network (BPNN) to learn, train and verify 120 samples of SBS AC-13 database. On this basis, a BPNN-based prediction model was established for the flexural-tensile strength of asphalt mixture under cyclic thermal stress. Next, the predicted results were compared with the actual results through regression analysis. The comparison shows that our model output a correlation coefficient (R) of 0.9706, an evidence for good prediction accuracy. This means our model can effectively predict the flexural-tensile strengths of asphalt mixture under cyclic thermal stress in cold regions. The research findings provide a good reference for similar studies on asphalt mixture.

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“…They discovered that when the tack coat material's stiffness grew, so did the asphalt pavements' fatigue life [7]. More recently, Wang et al (2018) [8] studied how varying tack coat thicknesses and materials affected the fatigue performance of asphalt pavements using FEM. Wang et al found that the fatigue life of asphalt pavements increased with increasing tack coat thickness and stiffness.…”

Section: Introductionmentioning

confidence: 99%

“…Wang et al found that the fatigue life of asphalt pavements increased with increasing tack coat thickness and stiffness. They also discovered that the kind of tack coat material had a big impact on fatigue performance [8]. Braunfelds et al (2021) [9] conducted an experimental study on the use of fiber Bragg grating (FBG) optical temperature and strain sensors to monitor asphalt concrete layers under the load of a moving wheel for road structural health monitoring (SHM).…”

Section: Introductionmentioning

confidence: 99%

FEM Modeling for Enhancing Fatigue Strength of Asphalt Pavements through an Optimum Tack Coat Layer Insertion

Amin,

Zaman,

Ahmed

2023

Asec 2023

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Fatigue Performance of Different Thickness Structure Combinations of Hot Mix Asphalt and Cement Emulsified Asphalt Mixtures

Cited by 15 publications

References 15 publications

Differences in the Ageing Behavior of Asphalt Pavements with Porous and Stone Mastic Asphalt Mixtures

Differences in the Ageing Behavior of Asphalt Pavements with Porous and Stone Mastic Asphalt Mixtures

A Backpropagation Neural Network-based Flexural-tensile Strength Prediction Model for Asphalt Mixture in Cold Regions under Cyclic Thermal Stress

FEM Modeling for Enhancing Fatigue Strength of Asphalt Pavements through an Optimum Tack Coat Layer Insertion

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