Load Transfer Efficiency of Rigid Airfield Pavement

Joshi, Akshay; Mehta, Yusuf; Cleary, Douglas; Henry, Samuel; Cunliffe, Charles

doi:10.3141/2300-08

Cited by 8 publications

(2 citation statements)

References 3 publications

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“…3 -Rutting or permanent deformation in flexible pavement [13] In rigid pavement, temperature gradients across the concrete slab depth will occur due to the temperature difference between the top and bottom of the PCC layer, which leads to a tendency to curl and differential expansions [14]- [17]. Joshi et al [18] have demonstrated that, for a given joint spacing and stiff slab thickness, a larger modulus of subgrade response can result in a greater temperature-induced curling stress. In stiff pavement, a higher curling stress might lead to a higher loading and curling stress.…”

Section: Fig 2 -Cross-section Of Rutting or Permanent Deformation [13]mentioning

confidence: 99%

Permanent Deformation Characteristics of Flexible Pavement Under Palm Oil Freight Truck Loading

Setiawan¹

2023

IJIE

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Most of previous studies employed dynamic stability test and Hamburg wheel tracking test to investigate permanent deformation characteristics of asphalt concrete (AC) layer. However, the permanent deformation performance only focuses on the surface course and neglected the influence of middle layer and base course. The present study investigates the permanent deformation characteristics of four (4) different configurations of flexible pavement and analyzes the contribution of AC surface and AC base course to the total permanent deformation of AC layer as the response to various truck’s speed, hauling loads, and loading cycles. Finite element modeling was performed to evaluate critical locations below the tire tread of single unit two-axles truck with the greatest magnitude of permanent deformation and to determine the optimum configuration of flexible pavement by considering the linear viscoelastic behavior of two types of AC mixtures. It can be concluded that the largest permanent deformation is measured below the right edge of the outer tire. The contribution of AC surface course on the total permanent deformation due to the increase in truck’s speed is only about 14.81% to 16.39%, while the contribution of AC surface course on the total permanent deformation due to the increase in truck’s hauling loads as well as the increase in the number of passing trucks is only around 14.76% to 16.44%. On the other hand, the contribution of AC base course on the total permanent deformation due to the increase in truck’s speed from is reaching 83.61% to 85.19%, while the contribution of AC base course on the total permanent deformation due to the increase in truck’s hauling loads as well as the increase in the number of passing trucks is achieving 83.56% to 85.24%.

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Section: Fig 2 -Cross-section Of Rutting or Permanent Deformation [13]mentioning

confidence: 99%

Permanent Deformation Characteristics of Flexible Pavement Under Palm Oil Freight Truck Loading

Setiawan¹

2023

IJIE

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“…Gao et al [12] analyzed the influence of temperature gradient on the curling behavior of concrete pavement slabs by measuring the temperature and strain according to the slab depth. In addition, Joshi et al [13] reported that the efficiency of load transfer between adjoining slabs could vary according to the temperature gradient, resulting in an increase of up to 0.5 inches in the design slab thickness. The drying shrinkage of a concrete slab due to moisture evaporation was also analyzed because most prior studies focused only on the temperature effect.…”

Section: Introductionmentioning

confidence: 99%

Behavior of Airport Concrete Pavement Slabs Exposed to Environmental Loadings

Park

Kim

Shim³

et al. 2020

Applied Sciences

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The behavior of pavement slabs was measured over a two-year period from the placement of concrete at a construction site in Incheon International Airport using temperature sensors and strain gauges. The influence of various environmental factors on the slab behavior was investigated by collecting weather data. Laboratory tests were conducted to obtain the material properties of the concrete slab, such as the elastic modulus, Poisson’s ratio, and modulus of rupture. The time of final setting of the concrete slab at the zero point of the strain gauges was determined according to the position and depth of the slab using the maturity of concrete obtained by a mortar penetration test. The real and shrinkage strains were calculated according to the position and depth of the slab using the coefficient of thermal expansion of the concrete, strain gauges, and correction factors of the strain gauges. The effects of environmental factors, such as temperature and moisture variations, were analyzed with respect to the strain in the concrete slab for the first seven days and two years after the placement of the concrete slab. The results obtained by the study shall be used to quantify the environmental effects on slabs for developing a method of designing airport concrete pavements.

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Effect of joint type on rigid airfield pavement behavior

Kim

Chung

et al. 2014

KSCE J Civ Eng

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Load Transfer Efficiency of Rigid Airfield Pavement

Cited by 8 publications

References 3 publications

Permanent Deformation Characteristics of Flexible Pavement Under Palm Oil Freight Truck Loading

Permanent Deformation Characteristics of Flexible Pavement Under Palm Oil Freight Truck Loading

Behavior of Airport Concrete Pavement Slabs Exposed to Environmental Loadings

Effect of joint type on rigid airfield pavement behavior

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