Measurement of the Resilient Modulus of Subgrade Materials for Mechanistic-empirical Pavement Design Guide in Wyoming PDF Download
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Author: Zachary R. Henrichs
Publisher:
ISBN: 9781321982947
Category : Pavements
Languages : en
Pages : 319
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Book Description
To improve the pavement design and construction in Wyoming, the Wyoming Department of Transportation (WYDOT) is adopting the Mechanistic-Empirical Pavement Design Guide (MEPDG). Calibration of local subgrade materials are needed to implement the MEPDG. This thesis describes the measurement of resilient modulus (Mr) of subgrade materials and prepares a catalog of representative subgrade properties. As part of the comprehensive testing program, subgrade soil samples were collected from 12 locations throughout the state for standard laboratory tests and Mr test. A testing protocol for Mr was developed by modifying the AASHTO Designation: T-307 to incorporate WYDOT practices. Test results show that Mr changes with axial loads, confining pressures, soil types, and depths beneath the pavement. Regression models were developed using statistical methods and design charts were established for estimating Mr-values. The outcomes of this research will facilitate the full implementation of the MEPDG in the state of Wyoming.
Author: Zachary R. Henrichs
Publisher:
ISBN: 9781321982947
Category : Pavements
Languages : en
Pages : 319
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Book Description
To improve the pavement design and construction in Wyoming, the Wyoming Department of Transportation (WYDOT) is adopting the Mechanistic-Empirical Pavement Design Guide (MEPDG). Calibration of local subgrade materials are needed to implement the MEPDG. This thesis describes the measurement of resilient modulus (Mr) of subgrade materials and prepares a catalog of representative subgrade properties. As part of the comprehensive testing program, subgrade soil samples were collected from 12 locations throughout the state for standard laboratory tests and Mr test. A testing protocol for Mr was developed by modifying the AASHTO Designation: T-307 to incorporate WYDOT practices. Test results show that Mr changes with axial loads, confining pressures, soil types, and depths beneath the pavement. Regression models were developed using statistical methods and design charts were established for estimating Mr-values. The outcomes of this research will facilitate the full implementation of the MEPDG in the state of Wyoming.
Author: Daniel K. Hellrung
Publisher:
ISBN: 9781321892161
Category : Pavements
Languages : en
Pages : 103
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Book Description
In an effort to build more cost effective and robust pavement structures, the Wyoming Department of Transportation (WYDOT) is in the transition of adopting the Mechanistic-Empirical Pavement Design Guide (MEPDG) instead of the 1993 AASHTO Pavement Design Guide. The University of Wyoming is currently conducting a comprehensive research study to facilitate the implementation of the MEPDG in the state. This thesis describes using a Falling Weight Deflectometer (FWD) as a non-destructive testing method for data collection and the development of a back-calculation testing protocol for estimating the resilient modulus of subgrade soils in Wyoming. During the summer of 2013, FWD testing was performed at 32 test sites throughout the state of Wyoming. Deflection measurements were collected and used to back-calculate the resilient modulus of the subgrade at each test site. The back-calculation protocol was developed by modifying the user guide of MODTAG, a back-calculation software, to achieve consistent and realistic back-calculated modulus results. Additionally, using these back-calculation results and laboratory measured modulus results for the same test site, two linear regression models were developed to correct the back-calculation results to laboratory equivalent values. The sum of square error (SSE) was used to compare the models and then select the most suitable one. The findings of this research will facilitate the MEPDG calibration which will help with the implementation of the MEPDG in the state of Wyoming.
Author: Anand J. Puppala
Publisher: Transportation Research Board
ISBN: 0309098114
Category : Technology & Engineering
Languages : en
Pages : 139
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Book Description
At head of title: National Cooperative Highway Research Program.
Author: Dawit Tumzghi Mebrahtom
Publisher:
ISBN: 9780438429499
Category : Aggregates (Building materials)
Languages : en
Pages : 215
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Book Description
To improve the pavement design and construction in Wyoming, the Wyoming Department of Transportation (WYDOT) is adopting the Mechanistic-Empirical Pavement Design Guide (MEPDG). A full implementation of MEPDG requires the characterization of the moduli of local crushed base materials. Crushed Base is an intermediate layer of a pavement structure, which transmits traffic loads from an asphalt layer to a subgrade layer. In this research laboratory resilient modulus experiments were performed to characterize the local crushed base materials in Wyoming. Resilient modulus is a dynamic response property defined as a ratio of deviator stress to the recoverable strain of a pavement material. A comprehensive resilient modulus test program was completed by following the WYDOT modified AASHTO Designation: T-307, which incorporates WYDOT design and testing practices. The cyclic triaxial testing chamber for confining load application, two load sensors for axial load, and two spring-loaded linear variable transducers (LVDTs) to measure the recoverable axial strain of an aggregate specimen were used in determining the laboratory resilient modulus. Effects of moisture content, percent fines, stresses, and gradation on base resilient modulus were assessed, and estimation models were developed using statistical methods. The coefficients of constitutive models developed by NCHRP (2004), Hicks and Monismith (1971) were calibrated for the locally available crushed base materials. Finally, a design table and a design chart for the estimation of base resilient modulus were developed. The outcomes of this research will facilitate the full implementation of the MEPDG in the state of Wyoming.
Author: Pinit Ruttanaporamakul
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
According to the new Mechanistic Empirical Pavement Design Guide (MEPDG) and 1993 AASHTO flexible pavement design guide, Resilient Modulus (MR) has been used extensively as an important material property in structure design of pavement. The modulus is used as the primary input parameter to determine the stiffness parameters and constitutive behavior of pavement components. The system of pavement basically consists of the layers of surface, base, subbase (optional), and subgrade. The compacted subgrade soils supporting pavement structure are typically unsaturated with degrees of saturation varying from 75% to 90%. The effect of unsaturated soil behavior on the mechanical properties of compacted pavement materials become an important variable and need to be considered. The main purpose of this study is to study the resilient moduli properties of compacted and unsaturated subgrade materials and to determine the effect of compaction moisture content, which is related to matric suction of the soils, on the resilient moduli properties. The second objective is to study the use of MEPDG models to calibrate resilient moduli properties either as a function of moisture content or soil suction variables. To accomplish these objectives, soil specimens were prepared at five different moisture content and dry density conditions and tested using conventional resilient modulus testing as per AASHTO T-307 procedure. The basic soil tests such as grain size distribution, Atterberg's limits, and standard proctor compaction were initially performed. Then, the advanced soil tests consisting of soil water characteristic curve (SWCCs), unconfined compressive strength (UCS) test, and conventional resilient modulus test were conducted. The soil suction conditions of the prepared specimens were determined based on the SWCCs information and the compaction moisture content. The test results indicate that compaction moisture content affected the values of resilient modulus of the subgrade soils. The specimens compacted at dry side of optimum moisture content (OMC) showed higher values of resilient modulus compared with the specimens compacted at OMC and wet side of OMC. The testing data were also analyzed with the models provided in MEPDG program. The level 2 input for predicting SWCCs provided in MEPDG gave the predicted SWCCs in similar trend to the measured SWCCs. However, the curves were not quite well matched. Lastly, the modified universal model and the model proposed by Cary and Zapata (2010) were studied and analyzed in detail. The results showed that the universal model is well suited for predicting the resilient modulus of the subgrade soils. However, the resilient modulus values predicted by the model of Cary and Zapata, sometime, showed the higher values than measured results especially, the specimens compacted at 0.8OMC.
Author:
Publisher:
ISBN:
Category : Pavements
Languages : en
Pages : 322
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Book Description
Author:
Publisher:
ISBN:
Category :
Languages : en
Pages : 19
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Book Description
Characterization of pavement materials in the three hierarchical design levels of the proposed mechanistic-empirical pavement design (MEPD) guide involves application of the dynamic modulus technique for asphalt concrete and the resilient modulus for unbound materials. This approach, if adequately implemented, is expected to improve the road design processes. The advance design level recommends using actual laboratory test data of the dynamic and resilient modulus determined under simulated environmental and traffic loading conditions. To circumvent the need for conducting the mechanical test in lower design levels, predictive equations and correlations established with physical properties are used to estimate the mechanistic properties needed as input to the design software. This paper examines the simplifications incorporated in the model using results of dynamic and resilient modulus tests performed at the National Research Council Canada (NRC). For the covering abstract of this conference see ITRD number E211426.
Author: Shabbir M. Hossain
Publisher:
ISBN:
Category : Aggregates (Building materials)
Languages : en
Pages : 0
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Book Description
Base aggregate is one of the intermediate layers in a pavement system for both flexible and rigid surfaces. Characterization of base aggregate is necessary for pavement thickness design. Many transportation agencies, including the Virginia Department of Transportation, assign a layer coefficient for pavement design where consideration for gradation or rock type is not obvious. The mechanistic-empirical pavement design requires base aggregate to be characterized using a resilient modulus value. Therefore, 16 aggregates from different geophysical regions of Virginia were collected and tested for resilient modulus in order to develop a catalog for the implementation of the Mechanistic-Empirical Pavement Design Guide (MEPDG). A wide range of resilient modulus values for base aggregate was found for different sources with different rock types. A catalog was developed with resilient modulus values for 16 aggregates from Virginia. The resilient modulus values ranged from approximately 10,000 to 30,000 psi. In general, limestone showed the higher modulus as compared to granite. An increase in compaction moisture content, even within allowable limits, adversely affected the resilient modulus value for many aggregates. This moisture sensitivity is related to both the percent of material passing the No. 200 sieve and the plastic nature of these fines. These values are recommended to be used as reference values for the MEPDG, but engineering judgment should be applied to account for moisture sensitivity.
Author: Richard Ji
Publisher:
ISBN:
Category : Flexible pavement design
Languages : en
Pages : 11
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Book Description
This paper presents a comparison study of the experimental results from the falling weight deflectometer (FWD) test and laboratory resilient modulus test on granular subgrade materials and its application in flexible pavement design. Field and laboratory testing programs were conducted to develop a practical methodology for estimating resilient modulus (Mr) values of subgrade soils for use in the design of pavement structures. Soil characterization database was established for lab testing. A multiple regression model can be used to predict Mr value using several factors including soil properties, soil type and state of stresses for three popular American Association of State Highway and Transportation Officials (AASHTO) soil types (A-4, A-6, and A-7-6) in Indiana, and these prediction models developed were verified compared with laboratory Mr tests with high R2 value. In situ Mr seasonal variation based on abundant FWD test data in five field testing sites spread in Indiana was conducted in order to find the correlation between resilient modulus, temperature, and precipitation for the period from 2006 to 2012. The proposed method can accurately predict subgrade Mr of lab testing. However results from lab testing are significantly lower than recommended range by mechanistic-empirical pavement design guide (MEPDG) and backcalculation one using an adjust factor of 3. The design examples showed that the seasonal variation of temperature and precipitation as well as traffic can affect the design thickness by as much as 15 to 20 % in general. The findings of this study are expected to be helpful in the implementation of the pavement design in Indiana and elsewhere.
Author: Shabbir M. Hossain
Publisher:
ISBN:
Category : Pavements
Languages : en
Pages : 34
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Book Description
To facilitate pavement design, the new proposed mechanistic-empirical pavement design guide recommends the resilient modulus to characterize subgrade soil and its use for calculating pavement responses attributable to traffic and environmental loading. Although resilient modulus values could be determined through laboratory testing of actual subgrade soil samples, such testing would require significant resources including a high level of technical capability to conduct the test and interpret results. For smaller or less critical projects, where costly and complex resilient modulus testing is not justified, correlation with the results of other simpler tests could be used. The Virginia Department of Transportation (VDOT) uses a simple correlation with the California bearing ratio (CBR) to estimate the resilient modulus in their current pavement design procedure in accordance with the 1993 AASHTO design guide. As this correlation with CBR is considered to be poor, a simpler unconfined compression (UC) test was explored for better estimation of the resilient modulus of fine-grained soils. Several models were developed in this study to estimate the resilient modulus of fine-grained soil from the results of UC tests. The simplest model considers only the UC strength to predict the resilient modulus with a fair correlation. The more detailed models with stronger correlations also consider the plasticity index, percentage of materials passing the No. 200 sieve, and modulus of the stress-strain curve from the UC test. These models are recommended for implementation by VDOT
