Influence of Moisture Damage on Fatigue of Warm Mix and Hot Mix Asphalt Mixture

Moisture damage is a primary mode of distress occurring in hot mix asphalt (HMA) pavements. Usually, the acid aggregate like gneiss must use some anti-stripping additive to resist water damage. Hydrated lime is best known as an anti-stripping additive since 1910. The purpose of this paper is to look at some aspects of the effects of aggregate chemical properties and hydrated lime on the dynamic mechanics and stripping behavior of hot mix asphalt. Two types of aggregates evaluated in this study were limestone and gneiss. The effects of the aggregates type were evaluated on four different aggregate gradations which were composed with the two aggregates in different proportion. And the hydrated lime has been used for HMA pavements to mitigate moisture-related damage in gneiss asphalt mixture. Laboratory tests for different asphalt mixture include Marshall Test, Frozen-thaw Cycle Test, Dynamic Modulus Test (DMT) and Indirect Tensile Fatigue Test (ITFT). Testing data and analyses demonstrated that different aggregate gradations have different mechanical properties. Hydrate lime has greatly contributed to moisture damage resistance in acid aggregate gneiss and enhanced the dynamic modulus. The modified with hydrated lime mixture composed with coarse gneiss aggregate and fine limestone aggregate also has better performance of the mixture against rutting, fatigue and thermal cracking. It can be concluded from ITFT tests that the fatigue life (load cycle times) of additive hydrated lime asphalt concrete is more than neat ones. At last, we can conclude that the selection and design that modified with hydrated lime and fine limestone aggregate replace acid aggregate could create multiple benefits in asphalt mixtures.

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Moisture Susceptibility of Asphalt Concrete Pavement Modified by Nanoclay Additive

Civil Engineering Journal ◽

10.28991/cej-2019-03091431 ◽

2019 ◽

Vol 5 (12) ◽

pp. 2535-2553 ◽

Cited By ~ 2

Author(s):

Saif Al-din Majid Ismael ◽

Mohammed Qadir Ismael

Keyword(s):

Asphalt Concrete ◽

Hot Mix Asphalt ◽

Asphalt Mixture ◽

Moisture Damage ◽

Strength Ratio ◽

Moisture Susceptibility ◽

Asphalt Cement ◽

Asphalt Content ◽

Marshall Stability ◽

Asphalt Concrete Pavement

Durability of hot mix asphalt (HMA) against moisture damage is mostly related to asphalt-aggregate adhesion. The objective of this work is to find the effect of nanoclay with montmorillonite (MMT) on Marshall properties and moisture susceptibility of asphalt mixture. Two types of asphalt cement, AC(40-50) and AC(60-70) were modified with 2%, 4% and 6% of Iraqi nanoclay with montmorillonite. The Marshall properties, Tensile strength ratio(TSR) and Index of retained strength(ISR) were determined in this work. The total number of specimens was 216 and the optimum asphalt content was 4.91% and 5% for asphalt cement (40-50) and (60-70) respectively. The results showed that the modification of asphalt cement with MMT led to increase Marshall stability and the addition of 6% of MMT recorded the highest increase, where it increased by 26.35% and 22.26% foe asphalt cement(40-5) and(60-70) respectively. Also, the addition of MMT led to increase moisture resistance of asphalt mixture according to the increase in TSR and IRS. The addition of 4% and 6% of MMT recorded the highest increase in TSR and IRS for asphalt cement (40-50) and (60-70) respectively, where they increased by 11.8% and 17.5% respectively for asphalt cement (40-50) and by 10% and 18% respectively for asphalt cement (60-70).

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Laboratory Investigation of Compaction Characteristics of Plant Recycled Hot-Mix Asphalt Mixture

Sustainability ◽

10.3390/su13063005 ◽

2021 ◽

Vol 13 (6) ◽

pp. 3005

Author(s):

Jiangang Yang ◽

Chen Sun ◽

Wenjie Tao ◽

Jie Gao ◽

Bocheng Huang ◽

...

Keyword(s):

Regression Model ◽

Hot Mix Asphalt ◽

Orthogonal Experiment ◽

Asphalt Mixture ◽

Material Design ◽

Void Content ◽

Range Analysis ◽

Aggregate Gradation ◽

Compaction Characteristics ◽

Compaction Energy

In this study, the compaction characteristics of recycled hot-mix asphalt (RHMA) were evaluated using the void content (VV), compaction energy index (CEI), slope of accumulated compaction energy (K), and lock point (LP). Then, the effects of the compaction parameters, including the gradation of the RHMA, reclaimed asphalt pavement (RAP) content, temperature of gyrations, and number of gyrations, on the compaction characteristics of RHMA were investigated. An orthogonal experiment was designed and the data collected were analyzed via range analysis; then, a regression model was generated relying on a quadratic polynomial. Furthermore, the regression model was used for the comparison and prediction of the mixture’s compactability during the material design. Finally, the compaction mechanism of RHMA was discussed from the perspective of the void content of RAP particles. The results showed that a finer aggregate gradation, a higher gyration temperature, a greater number of gyrations, and a higher RAP content were effective for increasing the compactability of RHMA. The range analysis results suggest that the gradation of RHMA has the greatest influence on compactability, followed by the RAP content. The RAP aggregate cannot diffuse to a new mixture completely, so the remained RAP particle reduces the void content of RHMA. Therefore, a higher RAP content up to 50% can help RHMA to achieve the designed void content with higher efficiency.

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Influence of crumb rubber size particles on moisture damage and strength of the hot mix asphalt

Materials Today Proceedings ◽

10.1016/j.matpr.2020.12.423 ◽

2021 ◽

Author(s):

Munder Bilema ◽

Mohamad Aman ◽

Norhidayah Hassan ◽

Mohamed Haloul ◽

Saeed Modibbo

Keyword(s):

Hot Mix Asphalt ◽

Moisture Damage ◽

Crumb Rubber

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Statistical and dimensional analysis of hot-mix asphalt mixture characteristics on asphalt pavement analyser rutting behaviour

International Journal of Pavement Engineering ◽

10.1080/10298436.2011.633706 ◽

2013 ◽

Vol 14 (2) ◽

pp. 103-115 ◽

Cited By ~ 1

Author(s):

Yong-Rak Kim ◽

Minki Hong ◽

David H. Allen ◽

Seong-Wan Park

Keyword(s):

Dimensional Analysis ◽

Hot Mix Asphalt ◽

Asphalt Pavement ◽

Asphalt Mixture

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Recycling of basic oxygen furnace slag in asphalt mixture: Material characterization & moisture damage investigation

Construction and Building Materials ◽

10.1016/j.conbuildmat.2012.06.023 ◽

2012 ◽

Vol 36 ◽

pp. 467-474 ◽

Cited By ~ 55

Author(s):

Jun Xie ◽

Shaopeng Wu ◽

Juntao Lin ◽

Jun Cai ◽

Zongwu Chen ◽

...

Keyword(s):

Material Characterization ◽

Asphalt Mixture ◽

Moisture Damage ◽

Basic Oxygen Furnace ◽

Basic Oxygen ◽

Basic Oxygen Furnace Slag ◽

Furnace Slag ◽

Damage Investigation

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Performance-based mix design of unmodified and lime-modified hot mix asphalt

Canadian Journal of Civil Engineering ◽

10.1139/l2012-067 ◽

2012 ◽

Vol 39 (7) ◽

pp. 824-833 ◽

Cited By ~ 1

Author(s):

Sangyum Lee ◽

Cheolmin Baek ◽

Je-Jin Park

Keyword(s):

Performance Test ◽

Hot Mix Asphalt ◽

Permanent Deformation ◽

Asphalt Mixture ◽

Fatigue Cracking ◽

Mix Design ◽

Direct Tension ◽

Element Analysis ◽

Asphalt Content ◽

National Cooperative

This paper presents the performance evaluation of unmodified and lime-modified hot mix asphalt (HMA) mixtures at varying asphalt content using asphalt mixture performance test developed from National Cooperative Highway Research Program project 9-19 and 9-29 and the viscoelastic continuum damage finite element analysis. Test methods adopted in this study are the dynamic modulus test for stiffness, the triaxial repeated load permanent deformation test for rutting, and the direct tension test for fatigue cracking. The findings from this study support conventional understanding of the effects of asphalt content and lime modification on the fatigue cracking and rutting performance. Finally, the optimum asphalt content for both lime-modified and unmodified mixtures are proposed based on the knowledge gleaned from the performance-based mix design methodology. With additional validation and calibration, the comprehensive methodology described in this paper may serve as the foundation for a performance-based HMA mix design and performance-related HMA specifications.

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Additive Percent Influence on “Warm Mix” Behavior

Romanian Journal of Transport Infrastructure ◽

10.1515/rjti-2015-0022 ◽

2014 ◽

Vol 3 (1) ◽

pp. 35-42

Author(s):

Carmen Răcănel ◽

Adrian Burlacu

Keyword(s):

Sustainable Development ◽

Working Conditions ◽

Hot Mix Asphalt ◽

New Technology ◽

Asphalt Mixture ◽

Master Curves ◽

Stiffness Modulus ◽

Chemical Additive ◽

The Road ◽

Field Compaction

Abstract The benefits of WMA technologies include reduced fuel usage and emissions in support of sustainable development, improved field compaction, which can facilitate longer haul distances and cool weather pavement, and better working conditions. Since this is a relatively new technology, it is necessary to determine the behavior and the performances of this type of asphalt mixture depending on additive percent. These technologies tend to reduce the viscosity of the asphalt and provide for the complete coating of aggregates at lower temperatures. WMA is produced at temperatures 20 to 30°C lower than typical hot-mix asphalt (HMA). The paper presents the results obtained in the Road Laboratory of Technical University of Civil Engineering Bucharest on an asphalt mixture with fibers (MASF16) prepared according to the “warm mix” technology with chemical additive. Different percent of additive are used in laboratory to draw up the “master curves” of asphalt mixture obtained by 4PB-PR stiffness modulus results.

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Sustainable utilization of lime kiln dust as active filler in hot mix asphalt with moisture damage resistance

Sustainable Materials and Technologies ◽

10.1016/j.susmat.2018.e00071 ◽

2018 ◽

Vol 17 ◽

pp. e00071 ◽

Cited By ~ 2

Author(s):

Peerapong Jitsanigam ◽

Wahidul K. Biswas ◽

Martyn Compton

Keyword(s):

Hot Mix Asphalt ◽

Moisture Damage ◽

Sustainable Utilization ◽

Damage Resistance ◽

Active Filler ◽

Lime Kiln ◽

Kiln Dust ◽

Lime Kiln Dust

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Effectiveness of Loaded Wheel Tracking Test to Ascertain Moisture Susceptibility of Asphalt Mixtures

Transportation Research Record Journal of the Transportation Research Board ◽

10.1177/03611981211036355 ◽

2021 ◽

pp. 036119812110363

Author(s):

Moses Akentuna ◽

Louay N. Mohammad ◽

Sanchit Sachdeva ◽

Samuel B. Cooper ◽

Samuel B. Cooper

Keyword(s):

Asphalt Binder ◽

Asphalt Mixture ◽

Moisture Damage ◽

Asphalt Mixtures ◽

Asphalt Binders ◽

Creep Recovery ◽

Moisture Susceptibility ◽

Freeze Thaw ◽

Wheel Tracking ◽

Mixture Samples

Moisture damage of asphalt mixtures is a major distress affecting the durability of asphalt pavements. The loaded wheel tracking (LWT) test is gaining popularity in determining moisture damage because of its ability to relate laboratory performance to field performance. However, the accuracy of LWT’s “pass/fail” criteria for screening mixtures is limited. The objective of this study was to evaluate the capability of the LWT test to identify moisture susceptibility of asphalt mixtures with different moisture conditioning protocols. Seven 12.5 mm asphalt mixtures with two asphalt binder types (unmodified PG 67-22 and modified PG 70-22), and three aggregate types (limestone, crushed gravel, and a semi-crushed gravel) were utilized. Asphalt binder and mixture samples were subjected to five conditioning levels, namely, a control; single freeze–thaw-; triple freeze–thaw-; MiST 3500 cycles; and MiST 7000 cycles. Frequency sweep at multiple temperatures and frequencies, and multiple stress creep recovery tests were performed to evaluate asphalt binders. LWT test was used to evaluate the asphalt mixture samples. Freeze–thaw and MiST conditioning resulted in an increase in stiffness in the asphalt binders as compared with the control. Further, freeze–thaw and MiST conditioning resulted in an increase in rut depth compared with the control asphalt mixture. The conditioning protocols evaluated were effective in exposing moisture-sensitive mixtures, which initially showed compliance with Louisiana asphalt mixture design specifications.

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