Rutting Performance of Airport Hot-Mix Asphalt Characterized by Laboratory Performance Testing, Full-Scale Accelerated Pavement Testing, and Finite Element Modeling PDF Download
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Author: John Ford Rushing
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Languages : en
Pages :
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Hot Mix Asphalt (HMA) laboratory mixture design is intended to provide a durable, rut-resistant mixture for a given traffic type. Current mixture design procedures using the Superpave Gyratory Compactor (SGC) rely on volumetric properties of the compacted mixture to assure reliable performance; however, a definitive performance test does not exist. This study provides guidance for selecting a laboratory performance test for airport HMA mixture designs based on; (a) data analyses of results from four potential laboratory tests, (b) comparisons of laboratory tests results to full-scale accelerated pavement test results, and (c) analyses of results from finite element simulations. The laboratory study evaluated of the repeated load test, the static creep test, the dynamic modulus test, and the Asphalt Pavement Analyzer (APA) test as potential performance tests to accompany airport HMA mixture design with a goal of providing acceptable threshold test results that predict rutting performance under aircraft traffic. Over 340 specimens were tested from 34 asphalt mixtures. Specific criteria for each test method were developed. Next, the test methods and criteria were applied to an HMA mixture design selected for accelerated pavement testing. The full-scale tests applied wheel loads that simulated both military fighter aircraft and heavy cargo aircraft traffic to a pavement constructed to meet typical airport design standards. In the first test, simulating fighter jet aircraft, the tire inflation pressure was 2241 kPa, and the pavement temperature was maintained at 43°C. The second test, simulating cargo aircraft, used a tire inflation pressure of 980 kPa and a pavement temperature of 25°C. As expected, rutting was much more severe in the first test. The full-scale tests were then simulated computationally using finite element modeling. The asphalt layer was modeled using the nonlinear viscoelastic, viscoplastic components of the Pavement Analysis Using Nonlinear Damage Approach (PANDA) model. The pavement sections and wheel loads from the field-tests were recreated using two-dimensional simulations within ABAQUS. The simulations resulted in very high rates of viscoplastic strain for the conditions of the first test, but almost no permanent deformation in the second test. Finally, recommendations for implementing APA criteria into airfield HMA mixture design are presented. The electronic version of this dissertation is accessible from http://hdl.handle.net/1969.1/152715
Author: John Ford Rushing
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Hot Mix Asphalt (HMA) laboratory mixture design is intended to provide a durable, rut-resistant mixture for a given traffic type. Current mixture design procedures using the Superpave Gyratory Compactor (SGC) rely on volumetric properties of the compacted mixture to assure reliable performance; however, a definitive performance test does not exist. This study provides guidance for selecting a laboratory performance test for airport HMA mixture designs based on; (a) data analyses of results from four potential laboratory tests, (b) comparisons of laboratory tests results to full-scale accelerated pavement test results, and (c) analyses of results from finite element simulations. The laboratory study evaluated of the repeated load test, the static creep test, the dynamic modulus test, and the Asphalt Pavement Analyzer (APA) test as potential performance tests to accompany airport HMA mixture design with a goal of providing acceptable threshold test results that predict rutting performance under aircraft traffic. Over 340 specimens were tested from 34 asphalt mixtures. Specific criteria for each test method were developed. Next, the test methods and criteria were applied to an HMA mixture design selected for accelerated pavement testing. The full-scale tests applied wheel loads that simulated both military fighter aircraft and heavy cargo aircraft traffic to a pavement constructed to meet typical airport design standards. In the first test, simulating fighter jet aircraft, the tire inflation pressure was 2241 kPa, and the pavement temperature was maintained at 43°C. The second test, simulating cargo aircraft, used a tire inflation pressure of 980 kPa and a pavement temperature of 25°C. As expected, rutting was much more severe in the first test. The full-scale tests were then simulated computationally using finite element modeling. The asphalt layer was modeled using the nonlinear viscoelastic, viscoplastic components of the Pavement Analysis Using Nonlinear Damage Approach (PANDA) model. The pavement sections and wheel loads from the field-tests were recreated using two-dimensional simulations within ABAQUS. The simulations resulted in very high rates of viscoplastic strain for the conditions of the first test, but almost no permanent deformation in the second test. Finally, recommendations for implementing APA criteria into airfield HMA mixture design are presented. The electronic version of this dissertation is accessible from http://hdl.handle.net/1969.1/152715
Author: Ludomir Uzarowski
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Author: Navneet Garg
Publisher:
ISBN:
Category : Pavements
Languages : en
Pages : 13
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Book Description
Six flexible pavements were constructed for construction cycle 7 (CC7) at the Federal Aviation Administration (FAA) National Airport Pavement Test Facility in Atlantic City, New Jersey. Four test sections on the north side measure 200 mm (LFP-4), 250 mm (LFP-3), 300 mm (LFP-2), and 375 mm (LFP-1) that are made of hot mix asphalt (HMA) over an aggregate subbase (thickness varying between 850 and 1,025 mm) resting on a subgrade with a California bearing ratio of 5.5. The fifth test section, LFC-5, is conventional flexible pavement with 125 mm of HMA over aggregate base and subbase, and the LFC-6 structure is the same as LFC-5 except that the crushed stone base layer is replaced with asphalt-stabilized drainable base. The objective of CC7 tests is to develop perpetual pavement design criterion and to validate or refine the fatigue model for HMA in airport pavement thickness design software FAARFIELD. The HMA fatigue model is based on the ratio of dissipated energy change (RDEC). Four fiber optic strain plates were installed to measure transverse and vertical strains at top and transverse strains at bottom within the HMA layer. Full-scale accelerated pavement tests were performed. Traffic test load parameters were six-wheel gear, 245-kN wheel load (gear load 1,470 kN), and 4-kmph speed. Pavement performance was monitored using crack maps, straight edge rut depth, and surface profile measurements. LFC-5 and LFP-4 showed significant fatigue cracks and rutting. LFP-1 and LFP-2 performed well with no signs of cracking. This article presents a discussion on the RDEC fatigue model, pavement thickness design, pavement material characterization test results, pavement instrumentation, accelerated pavement tests under heavy aircraft gear loads, and pavement responses measured using embedded sensors. The test section performance shows that, under loading conditions used in the study, by increasing HMA thickness from 25.4 to 30.5 cm, fatigue cracking was eliminated for the duration of testing (38,000 passes).
Author:
Publisher:
ISBN:
Category :
Languages : en
Pages : 17
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Book Description
Quality of asphalt mix (HMA) is one of the main factors that affects the flexible pavement performance. Use of poor quality mix and finding their consequences through pavement performance evaluation is often too costly. Therefore, the remedy is to evaluate the quality of the mix at the design stage of a project. In recent years, performance-based testing has gained popularity so that problematic mixes can be identified and eliminated. Asphalt Pavement Analyzer (APA) has been successfully used in recent years for evaluation of permanent deformation or rutting in both hot mix and cold mix asphalt specimens. In view of layered pavement systems encountered in practice, three-dimensional finite element models (FEM) can be used to relate the APA test results with the in-service performance of the pavement. The primary objectives of this study are to develop a finite element model to simulate the laboratory testing of asphalt mixes in APA for rutting and to relate the test results to basic material properties. For the covering abstract of this conference see ITRD number E211395.
Author: Murat Guler
Publisher:
ISBN:
Category :
Languages : en
Pages : 254
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Author: American Association of State Highway and Transportation Officials
Publisher: AASHTO
ISBN: 1560510552
Category : Pavements
Languages : en
Pages : 622
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Book Description
Design related project level pavement management - Economic evaluation of alternative pavement design strategies - Reliability / - Pavement design procedures for new construction or reconstruction : Design requirements - Highway pavement structural design - Low-volume road design / - Pavement design procedures for rehabilitation of existing pavements : Rehabilitation concepts - Guides for field data collection - Rehabilitation methods other than overlay - Rehabilitation methods with overlays / - Mechanistic-empirical design procedures.
Author: American Society of Civil Engineers
Publisher: Amer Society of Civil Engineers
ISBN: 9780784411049
Category : Technology & Engineering
Languages : en
Pages : 592
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Book Description
Pavement Design And Paving Material Selection are important for efficient, cost effective, durable, and safe transportation infrastructure Paving Materials and Pavement Analysis contains 73 papers examining bound and unbound material characterization, modeling, and performance of highway and airfield pavements. The papers in this publication were presented during the GeoShanghal 2010 International Conference held in Shanghai, China, June 3-5, 2010.
Author: Hao Ying
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Author: Rafiqul Alam Tarefder
Publisher:
ISBN:
Category : Pavements
Languages : en
Pages : 194
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A comprehensive study involving rut potential of Hot Mix Asphalt (HMA) was conducted. Both cylindrical and beam specimens of HMA were prepared using a Superpave Gyratory Compactor (SGC) and an Asphalt Vibratory Compactor (AVC), respectively. Mixture rutting performance was determined in the Asphalt Pavement Analyzer (APA).
Author: Robert Otto Rasmussen
Publisher: Transportation Research Board
ISBN: 0309070198
Category : Pavements
Languages : en
Pages : 96
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Book Description
TRB's National Cooperative Highway Research Program (NCHRP) Synthesis 338: Thin and Ultra-Thin Whitetopping summarizes available information to document how state departments of transportation and others are currently using thin and ultra-thin whitetopping overlays among various pavement rehabilitation alternatives. The report covers all stages of the proper application of whitetopping overlays, including project selection, design, materials selection, construction, maintenance, and eventual rehabilitation or replacement.
