Modeling The Effects Of Temperature And Loading Rate On Fatigue Property Of Asphalt Binder

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Modeling The Effects Of Temperature And Loading Rate On Fatigue Property Of Asphalt Binder

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Author : Haifang Wen
language : en
Publisher:
Release Date : 2010

Modeling The Effects Of Temperature And Loading Rate On Fatigue Property Of Asphalt Binder written by Haifang Wen and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 2010 with Asphalt binder categories.

Fatigue cracking is one of three major distresses for asphalt pavement. Asphalt binder is a very important component of asphaltic mixture. The fatigue performance of asphalt binder also greatly affects that of asphaltic mixture. Asphalt binder's fatigue characteristics are affected by external conditions, such as temperature and loading rate. It is warranted to study the effects of these external conditions on fatigue of asphalt binder and take them into account. New fatigue tests and properties have been proposed to characterize the fatigue behavior of asphalt binders, such as monotonic constant shear-rate tests. This study investigated the effects of temperature and shear rate on fatigue properties of asphalt binder. Two asphalt binders were tested with a range of temperature and shear rates. It was found that time-temperature superposition principle also applies to critical strain energy density and shear strength of asphalt binders. The values of shift factors for building the master curves of critical strain energy and shear strength are comparable.

Effects Of Climate Aging And Traffic In Characterization Of Asphalt Binder Fatigue Using The Las Test

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Author : Hui Chen (Ph.D.)
language : en
Publisher:
Release Date : 2021

Effects Of Climate Aging And Traffic In Characterization Of Asphalt Binder Fatigue Using The Las Test written by Hui Chen (Ph.D.) and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 2021 with categories.

The linear amplitude sweep (LAS) test is considered a useful tool for evaluating fatigue of asphalt binders. The effects of oxidative aging, temperature, and loading frequency remain difficult to measure or model in a simple format. In this study, the combined effects of strain, aging and temperature are investigated using the LAS procedure, and a method for estimating binder fatigue behavior at different combinations of these effects from limited measurements is introduced. Recently, the Glover-Rowe (G-R) parameter has also been introduced as a measure of binder cracking resistance and its change with oxidative aging. This approach differs than the LAS in the time required for testing, the range in strain used, and temperature of the tests required to derive the binder fatigue parameters. In addition, there is confusion about what could be the specification acceptance limits to be used and how to consider the temperature of pavement, and traffic volume and speed in the specification criteria for the G-R. In this study, the effect of strain using in testing on the G-R parameter are investigated and a modified criterion for using it in specifications with accounting for traffic conditions and temperature, are introduced. The results of this study show that LAS parameters, A and B, after different aging durations or at different temperatures, have a good relationship with the binder complex modulus (G*) measured at the corresponding conditions. Therefore, a new fatigue life (Nf) model accounting for strain level, temperature and aging is proposed using a power function of the binder G*. The model offers a simple reliable method to predicted values of fatigue life at a wider range of aging, temperature and strain level conditions. Following the concept of Jnr limits for different traffic grades used for the Multiple Stress Creep and Recovery (MSCR) test, the threshold values of the allowable strain in LAS results, and maximum allowable G-R limits, under different traffic volume and speed conditions are defined. Similar to the MSCR approach, four fatigue traffic grades including S, H, V, and E are used in the proposed criteria. To verify that the LAS and G-R parameters are related to asphalt mixtures cracking resistance, and that the binder specification limits are logical, the results of binder testing are compared with mixture testing results and the comparison show clear evidence of the role of binders in mixture behavior in the IDEAL-CT mixture tests.

Effects Of Climate Aging And Traffic In Characterization Of Asphalt Binder Fatigue Using The Las Test

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Author : Hui Chen (Ph.D.)
language : en
Publisher:
Release Date : 2021

Effects Of Climate Aging And Traffic In Characterization Of Asphalt Binder Fatigue Using The Las Test written by Hui Chen (Ph.D.) and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 2021 with categories.

The linear amplitude sweep (LAS) test is considered a useful tool for evaluating fatigue of asphalt binders. The effects of oxidative aging, temperature, and loading frequency remain difficult to measure or model in a simple format. In this study, the combined effects of strain, aging and temperature are investigated using the LAS procedure, and a method for estimating binder fatigue behavior at different combinations of these effects from limited measurements is introduced. Recently, the Glover-Rowe (G-R) parameter has also been introduced as a measure of binder cracking resistance and its change with oxidative aging. This approach differs than the LAS in the time required for testing, the range in strain used, and temperature of the tests required to derive the binder fatigue parameters. In addition, there is confusion about what could be the specification acceptance limits to be used and how to consider the temperature of pavement, and traffic volume and speed in the specification criteria for the G-R. In this study, the effect of strain using in testing on the G-R parameter are investigated and a modified criterion for using it in specifications with accounting for traffic conditions and temperature, are introduced. The results of this study show that LAS parameters, A and B, after different aging durations or at different temperatures, have a good relationship with the binder complex modulus (G*) measured at the corresponding conditions. Therefore, a new fatigue life (Nf) model accounting for strain level, temperature and aging is proposed using a power function of the binder G*. The model offers a simple reliable method to predicted values of fatigue life at a wider range of aging, temperature and strain level conditions. Following the concept of Jnr limits for different traffic grades used for the Multiple Stress Creep and Recovery (MSCR) test, the threshold values of the allowable strain in LAS results, and maximum allowable G-R limits, under different traffic volume and speed conditions are defined. Similar to the MSCR approach, four fatigue traffic grades including S, H, V, and E are used in the proposed criteria. To verify that the LAS and G-R parameters are related to asphalt mixtures cracking resistance, and that the binder specification limits are logical, the results of binder testing are compared with mixture testing results and the comparison show clear evidence of the role of binders in mixture behavior in the IDEAL-CT mixture tests.

Fatigue Of Asphalt Binders

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Author : Wilfung Martono
language : en
Publisher:
Release Date : 2008

Fatigue Of Asphalt Binders written by Wilfung Martono and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 2008 with categories.

Effect Of Asphalt Modification On Failure Properties Of Asphalt Binders

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Author : Kitae Nam
language : en
Publisher:
Release Date : 2001

Effect Of Asphalt Modification On Failure Properties Of Asphalt Binders written by Kitae Nam and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 2001 with categories.

Characterizing The Temperature Effects On Rutting And Fatigue Properties Of Asphalt Binders Based On Time Temperature Superposition Principle

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Author : Chao Wang
language : en
Publisher:
Release Date : 2019

Characterizing The Temperature Effects On Rutting And Fatigue Properties Of Asphalt Binders Based On Time Temperature Superposition Principle written by Chao Wang and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 2019 with Asphalt concrete categories.

The objective of this article is to investigate the effects of temperature on rutting and fatigue cracking resistance of asphalt binders based on the time-temperature superposition principle (TTSP) In this study, the TTSP approach was employed to interpret the results of multiple stress creep recovery (MSCR) and linear amplitude sweep (LAS) tests for both neat and styrene-butadiene-styrene (SBS)modified asphalt binders. The higher stress level of 3.2kPa in the standard MSCR test procedure was extended to 10 and 15kPa to verify the stress sensitivity of the nonrecoverable compliance (Jnr) A loading duration of 5 minutes in the standard LAS test was extended to 10 and 15 minutes to develop the fatigue failure criterion at different conditions. The results demonstrate that the time-strain curves of the neat binder during the MSCR tests under different temperatures can be unified into a single strain master curve using the TTSP shift factors, based on which the predictiveJnrshowed good agreement with the measured values. This TTSP-based analysis approach does not work well for the MSCR results of the SBS-modified binder at high temperatures. However, the fatigue failure criterion determined from the LAS tests under different temperatures was verified to be successfully constructed into a single failure criterion according to the TTSP approach for both the neat and SBS-modified binders. Therefore, only an additional caution is raised for the TTS-based analysis on rutting resistance of the modified binder in a high temperature range.

Research Results Digest

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Author :
language : en
Publisher:
Release Date : 2013

Research Results Digest written by and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 2013 with Highway research categories.

Validation Of Thermally Induced Internal Cracking In Asphalt Mixtures Using Indirect Tensile Test

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Author : Joshua Oklu
language : en
Publisher:
Release Date : 2022

Validation Of Thermally Induced Internal Cracking In Asphalt Mixtures Using Indirect Tensile Test written by Joshua Oklu and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 2022 with Materials categories.

s stated in the House Bill 62 Transportation Budget in Brief, roughly 5 billion dollars is spent yearly on road pavement construction in the state of Ohio, with a significant chunk for maintenance. Moreover, maintenance activities and their associated costs are increased in the colder regions of the US where damages and distress on roadways are associated to the Low Temperature Cracking (LTC) phenomena or at least in combination with other distress like rutting and fatigue cracking. Thermally induced internal cracking is a mechanism that occurs under low temperature conditions. Akentuna et al. (2017) postulated that the differential in Coefficient of Thermal Contraction (CTC) values in asphalt binder and aggregate gives rise to thermally induced internal cracking at low temperatures. Owing to its potential significance and effect on LTC modeling, this study investigated the thermally induced thermal cracking phenomena using the Indirect Tensile (IDT) test. The IDT test was selected since it is the test procedure used in fracture property investigation in the AASHTOWare Pavement Mechanistic Empirical (ME) Design program for low temperature cracking modeling. In addition, a study on the effect of loading rate and temperature on asphalt mixtures during the ITS test was also investigated. Although thermally induced internal cracking was observed by Li et al. (2007) using the acoustic emissions test and Behnia et al. (2014) using the Disc-shaped Compact Test (DCT), its quantified effect has not been studied. The results garnered from this study validated the occurrence of thermally induced internal cracking, evidenced by significant reduction in IDT peak strengths and energy at peak stress to averaged magnitudes of 4% and 12% respectively. The second objective of this study on varying loading rate and temperature during the IDT strength tests proved that the standard test loading rate of 12.5mm/min rate was too fast and not representative of field loading rate. In addition, knowing that LTC could occur even at lower stress compared to the IDT strengths, ‘Creep to fail’ tests were performed to analyze the behavior of mixtures in such circumstances. Results showed that creep loads at extremely lower percentages of IDT strengths still fractured asphalt samples with output parameters offering valuable information on crack behavior under low temperature conditions. Time to fracture and crack speed parameters were shown to decrease 62% and increase 46% in thermally induced internal cracking samples.

The Effects Of Asphalt Binder Oxidation On Hot Mix Asphalt Concrete Mixture Rheology And Fatigue Performance

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Author : Sung Hoon Jung
language : en
Publisher:
Release Date : 2010

The Effects Of Asphalt Binder Oxidation On Hot Mix Asphalt Concrete Mixture Rheology And Fatigue Performance written by Sung Hoon Jung and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 2010 with categories.

Asphalt oxidation causes major changes to binder properties and is hypothesized to be a major contributor to age-related pavement failure such as fatigue cracking. Extensive laboratory aging research has been done to assess the effects of oxidation on binder properties. Previous work shows binder oxidation makes the binder stiffer and more brittle, leading to higher binder stresses under a given deformation. Failure occurs when these stresses exceed the strength of the binder. However, binder oxidation in pavements has not been studied in the same detail as laboratory aging of neat binders. The impact of binder oxidation on long-term pavement performance has been either underestimated or ignored. This research includes studies of binder oxidation in Texas pavements to compare the field aging with laboratory neat binder aging, the impact of binder oxidation on HMAC mixture aging and HMAC mixture fatigue performance, and fundamental rheological property changes of the binder and the mixture. Binder oxidation is studied in fifteen pavements from locations across Texas. Results indicate that unmodified binders in pavements typically oxidize and harden to a degree that exceeds generally accepted pavement aging assumptions. This hardening may also extend much deeper into the pavement than has been previously assumed or documented. Data suggest that pavements can oxidize at rates surprisingly uniform with depth once early oxidation occurs, and that these rates continue for an extended time. Laboratory-aged HMAC mixtures and binders were tested and analyzed for fatigue resistance and their rheological properties. Mixture aging shows the same aging mechanisms as neat binder aging. Both binder and mixture have a higher modulus with aging and a good rheological correlation. The decline in mixture fatigue life (determined using the calibrated mechanistic fatigue analysis approach with surface energy measurement) due to oxidation is significant. Pavement service life is dependent on the mixture, but can be estimated by a cumulative damage approach that considers binder oxidation and pavement loading rate simultaneously. The differences in expected pavement life arise from differences in the rate of binder stiffening due to oxidation and the impact of this stiffening on the decline of fatigue life.

Modeling Of Asphalt Concrete

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Author : Y. Richard Kim
language : en
Publisher: McGraw Hill Professional
Release Date : 2007-09-22

Modeling Of Asphalt Concrete written by Y. Richard Kim and has been published by McGraw Hill Professional this book supported file pdf, txt, epub, kindle and other format this book has been release on 2007-09-22 with Technology & Engineering categories.

An Expert Guide to Developing More-Durable and Cost-Effective Asphalt Pavements Written by distinguished experts from countries around the world, Modeling of Asphalt Concrete presents in-depth coverage of the current materials, methods, and models used for asphalt pavements. Included is state-of-the-art information on fundamental material properties and mechanisms affecting the performance of asphalt concrete, new rheological testing and analysis techniques, constitutive models, and performance prediction methodologies for asphalt concrete and asphalt pavements. Emphasis is placed on the modeling of asphalt mixes for specific geographic/climatic requirements. In light of America's crumbling infrastructure and our heavy usage of asphalt as a paving material, this timely reference is essential for the development of more-durable and cost-effective asphalt materials for both new construction and rehabilitation. Harness the Latest Breakthroughs in Asphalt Concrete Technology: • Asphalt Rheology • Constitutive Models • Stiffness Characterization • Models for Low-Temperature Cracking • Models for Fatigue Cracking and Moisture Damage • Models for Rutting and Aging