SUPERPAVE design mixture performance evaluation using Epolene modifier for cold semi-arid climatic region of Saudi Arabia

Purpose: To evaluate the superpave design performance using Epolene (EE-2) as modifier, since SUPERPAVE design is a modified and sophisticated aspect as compared to previous mix design for asphalt mixtures. This is primarily due to the fact that superpave design mix also takes into consideration properties of materials beside asphalt. Design/methodology/approach: This study was conducted using Epolene (EE-2) as modifier in order to evaluate the performance of SUPERPAVE suitability for construction of roads in Alfaraa campus (King Khalid University) Abha, in Asir Province of Saudi Arabia. Glow number test, dynamic modulus test and indirect tensile strength test were conducted to evaluate the performance of EE-2 modifier against the control mixture. Findings: The mixture modified with EE-2 gave better performance in terms of temperature-based performance and resistance to moisture damage. Also, larger values of E*/sinφ were obtained for EE-2 modified mixture at various loading frequencies and temperature in comparison to control mixture. Research limitations/implications: The Epolene modifier successfully enhances and improves the SUPERPAVE mixture performance. Further studies are required to evaluate the performance of EE-2 modifier at much lower temperature ranges. Practical implications: The results of the study allow us to recommend the investigated asphalt mixture for applied for the construction of roads in the Alfaraa (new campus of King Khalid University), Abha, Asir province, Saudi Arabia. Originality/value: A modified asphalt mixture has been proposed that has better performance at higher and lower temperatures. The developed asphalt mixture is more resistant to moisture damage than the compared to control mixture.

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Performance Evaluation of Warm- and Hot-Mix Asphalt Mixtures Based on Laboratory and Accelerated Pavement Tests

Advances in Materials Science and Engineering ◽

10.1155/2012/901658 ◽

2012 ◽

Vol 2012 ◽

pp. 1-9 ◽

Cited By ~ 6

Author(s):

Yongjoo Kim ◽

Jaejun Lee ◽

Cheolmin Baek ◽

Sunglin Yang ◽

Sooahn Kwon ◽

...

Keyword(s):

Asphalt Mixture ◽

Warm Mix Asphalt ◽

Strength Test ◽

Asphalt Mixtures ◽

Limited Data ◽

Tensile Strength Test ◽

Paving Asphalt ◽

Dynamic Modulus Test ◽

Indirect Tensile ◽

Lower Temperature

A number of warm-mix asphalt (WMA) technologies are used to reduce the temperature at which the asphalt mixtures are produced and compacted, apparently without compromising the performance of the pavement. The main objective of this study is to determine whether the use of an innovative wax-based LEADCAP WMA additive influences the performance of the asphalt mixture, which is produced and compacted at significantly low temperatures. The WMA pavement using LEADCAP additive (WMA-LEADCAP) along with a control HMA pavement was evaluated with respect to their performances of rutting resistance, crack resistance, and viscoelastic property based on the laboratory dynamic modulus test, indirect tensile strength test, and in-door accelerated pavement test (APT) results. With the limited data carried out, the LEADCAP additive is effective in producing and paving asphalt mixture at approximately 30°C lower temperature than a control HMA mixture, and the performances of WMA-LEADCAP pavement are comparable to a control HMA pavement.

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Evaluation of Moisture and Ageing Effects on Calcium Carbonite Nanoparticles Modified Asphalt Mixtures

International Journal of Engineering Research in Africa ◽

10.4028/www.scientific.net/jera.34.40 ◽

2018 ◽

Vol 34 ◽

pp. 40-47 ◽

Cited By ~ 3

Author(s):

Shaban Ismael Albrka Ali ◽

Riyadh Abdulwahid ◽

Muhamed Laith Eidan ◽

Nur Izzi Md Yusoff

Keyword(s):

Tensile Strength ◽

Dynamic Modulus ◽

Resilient Modulus ◽

Asphalt Mixture ◽

Indirect Tensile Strength ◽

Traffic Load ◽

Moisture Susceptibility ◽

Modified Asphalt ◽

Dynamic Modulus Test ◽

Indirect Tensile

Flexible pavements deteriorate and crack with time due to the frequent traffic load imposed upon it. Many studies have been done to predict the effects of frequent traffic load and environmental conditions on pavements in the effort to find the best pavement design which resist deterioration and ensure longer pavement service time. This study investigates the effect of mixing asphalt with varying percentages of nano calcium carbonate (CaCO3), namely 0, 2, 4, and 6 %. The mixtures were designed based on the Superpave mix design criteria. Investigation was done using several tests, namely resilient modulus, indirect tensile strength, moisture susceptibility, and dynamic modulus tests. Samples were subjected to aging to determine their resilient modulus. The results of the investigation show that resilient modulus and indirect tensile strength increased when higher percentages of nanoparticles were added to asphalt mixture, with improvement of 138 and 48.18% respectively. Modified binders showed up to 17% improvement in moisture susceptibility comparison to base asphalt mixture, while the result of dynamic modulus test showed that the stiffness of modified asphalt increased 76.69%. The investigation also found that adding 6% CaCO3 nanoparticles to asphalt produced modified asphalt with the best performance. In addition, the results show that the modified asphalt with CaCO3 is suitable for hot and humid regions (tropical countries) in the field of highways construction, as the modifier was able to mitigate the influences of high-temperature rutting and moisture damage.

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MECHANICAL PERFORMANCE OF ASPHALT MIXTURE CONTAINING CUP LUMP RUBBER

Jurnal Teknologi ◽

10.11113/jt.v81.13857 ◽

2019 ◽

Vol 81 (6) ◽

Author(s):

Norfazira Mohd Azahar ◽

Norhidayah Abdul Hassan ◽

Ramadhansyah Putra Jaya ◽

Hasanan Md. Nor ◽

Mohd Khairul Idham Mohd Satar ◽

...

Keyword(s):

Mechanical Performance ◽

Resilient Modulus ◽

Permanent Deformation ◽

Asphalt Binder ◽

Asphalt Mixture ◽

Modified Asphalt ◽

Dynamic Creep ◽

Aging Conditions ◽

Public Work Department ◽

Indirect Tensile

The use of cup lump rubber as an additive in asphalt binder has recently become the main interest of the paving industry. The innovation helps to increase the natural rubber consumption and stabilize the rubber price. This study evaluates the mechanical performance of cup lump rubber modified asphalt (CMA) mixture in terms of resilient modulus, dynamic creep and indirect tensile strength under aging conditions. The CMA mixture was prepared using dense-graded Marshall-designed mix and the observed behavior was compared with that of conventional mixture. From the results, both mixtures passed the volumetric properties as accordance to Malaysian Public Work Department (PWD) specification. The addition of cup lump rubber provides better resistance against permanent deformation through the enhanced properties of resilient modulus and dynamic creep. Furthermore, the resilient modulus of CMA mixture performed better under aging conditions.

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Characteristic Analysis of Dynamic Modulus for High Modulus Asphalt Concrete

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.505-506.15 ◽

2014 ◽

Vol 505-506 ◽

pp. 15-18 ◽

Cited By ~ 2

Author(s):

Xiao Long Zou ◽

Ai Min Sha ◽

Wei Jiang ◽

Xin Yan Huang

Keyword(s):

Dynamic Modulus ◽

Testing Machine ◽

Asphalt Mixture ◽

Asphalt Mixtures ◽

High Modulus ◽

Characteristic Analysis ◽

Modified Asphalt ◽

Universal Testing ◽

Different Temperatures ◽

Dynamic Modulus Test

In order to analyze the characteristics of high modulus asphalt mixture dynamic modulus, Universal Testing Machine (UTM-25) was used for dynamic modulus test of three kinds of mixtures, which were PR Module modified asphalt mixture and PR PLAST.S modified asphalt mixture and virgin asphalt mixture, to investigate dynamic modulus and phase angle at different temperatures and frequencies. The results indicate that: the dynamic modulus order of the three asphalt mixtures is PR MODULE > PR PLAST.S > Virgin. PR MODULE asphalt mixture dynamic modulus is much larger than the other two.

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Study on Dynamic Modulus of Waste Plastic Modified Asphalt Mixture Using Waste Plastic Bag Chips

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.261-263.824 ◽

2011 ◽

Vol 261-263 ◽

pp. 824-828 ◽

Cited By ~ 1

Author(s):

Qian Zhang ◽

Shu Wei Goh ◽

Zhan Ping You

Keyword(s):

Phase Angle ◽

Dynamic Modulus ◽

Asphalt Mixture ◽

Control Sample ◽

Asphalt Mixtures ◽

Test Results ◽

Waste Plastic ◽

Modified Asphalt ◽

Plastic Bag ◽

Dynamic Modulus Test

The objective of this study is to investigate the possibility of using waste plastic as an additive to modify asphalt mixtures thereby reducing the waste plastic stream in our environment. High density polyethylene plastic bags obtained from the retail store were shredded into chips and added into asphalt mixtures at the rate of 0% (control sample), 2, 5 and 8% based on binder weight. Three different temperatures of 4, 21.3 and 39.2°C and frequencies ranging from 0.1 to 25 Hz were used in the dynamic modulus test. It was found that most of the asphalt mixtures modified with waste plastic have higher dynamic modulus when compared with the control samples. However, no significant trend on phase angle was found among all the samples tested based on the test results. In this study, it was found that the modified asphalt mixture with 2% waste plastic had the highest dynamic modulus and phase angle. Based on the test results, it was found that plastic modified asphalt mixture will have a better performance under intermediate and high temperature conditions.

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Study on Properties and Pavement Performance of Anti-Flaming and Warm-Mix SBS Modified Asphalt

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.97-98.367 ◽

2011 ◽

Vol 97-98 ◽

pp. 367-372 ◽

Cited By ~ 1

Author(s):

Yang Cheng Huang ◽

Zhao Yi He

Keyword(s):

Orthogonal Experiment ◽

Asphalt Mixture ◽

Fire Retardant ◽

Temperature Property ◽

Modified Asphalt ◽

Water Sensitivity ◽

Property Loss ◽

Lower Temperature ◽

Sbs Modified Asphalt ◽

Low Temperature Property

In order to solve problems such as environmental contamination, large resource consuming, and the inflammability of present asphalt mixture, a warm-mix agent was chosen and fire retardant was added to asphalt to modify its characteristics. The anti-flaming and warm-mix asphalt has been produced in the orthogonal experiment, and its road property and anti-flaming property lived up to expectation. The experiment shows that under the condition of a lower temperature (15-20°C lower than the the mix temperature), the rutting resistance of the anti-flaming and warm-mix SBS modified asphalt , but its low temperature property and water sensitivity decreased. This asphalt has excellent anti-flaming characteristic, and thus it can decrease the property loss in case of fire.

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Laboratory and Field Investigation of the Feasibility of Crumb Rubber Waste Application to Improve the Flexibility of Anti-Rutting Performance of Asphalt Pavement

Materials ◽

10.3390/ma11091738 ◽

2018 ◽

Vol 11 (9) ◽

pp. 1738 ◽

Cited By ~ 4

Author(s):

Hongyin Li ◽

Hailong Jiang ◽

Wenwu Zhang ◽

Peng Liu ◽

Shanshan Wang ◽

...

Keyword(s):

Resilient Modulus ◽

Asphalt Pavement ◽

Asphalt Mixture ◽

Crumb Rubber ◽

Field Investigation ◽

Compression Tests ◽

Modified Asphalt ◽

Asphalt Mix ◽

Low Temperature Cracking ◽

Indirect Tensile

Resistance of asphalt mix to low-temperature cracking and rutting at high temperature is very important to ensure the service performance of asphalt pavement under seasonal changes in temperature and loading. However, it is challenging to balance the improvement of such resistance by using additives, e.g., anti-rutting agent (ARA). This study focuses on improving the flexibility of anti-rutting asphalt mix by incorporating crumb rubber (CR) and ARA. The properties of the prepared modified asphalt mix were evaluated in the laboratory by performing wheel tracking, three-point bending, indirect tensile, and uniaxial compression tests. The experimental results showed that the dynamic stability of modified asphalt mix was significantly increased due to the addition of ARA and further improved by incorporating CR. The maximum bending strain at −10 °C was increased due to the contribution of CR. The results of indirect tensile strength and resilient modulus further indicated that the CR-modified anti-rutting mixture was more flexible. Moreover, the field observation and evaluation indicated that the CR-modified anti-rutting asphalt pavement met the standard requirements, better than normal asphalt mixture in many parameters. A conclusion can be made that incorporating CR in asphalt mixture prepared with ARA can improve pavement performance at both high and low in-service temperatures.

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Laboratory Study on the Fatigue Resistance of Asphaltic Concrete Containing Titanium Dioxide

E3S Web of Conferences ◽

10.1051/e3sconf/20183401021 ◽

2018 ◽

Vol 34 ◽

pp. 01021

Author(s):

Rosnawati Buhari ◽

Mohd Ezree Abdullah ◽

Mohd Khairul Ahmad ◽

Saiful Azhar Tajudin ◽

Siti Khatijah Abu Bakar

Keyword(s):

Titanium Dioxide ◽

Asphalt Mixture ◽

Performance Testing ◽

Fatigue Performance ◽

Fatigue Properties ◽

Modified Asphalt ◽

Tensile Fatigue ◽

Asphalt Mix ◽

Rotational Viscosity ◽

Indirect Tensile

This study aims to evaluate the fatigue performance of modified asphalt mixture using Indirect Tensile Fatigue Test. Titanium Dioxide (TiO2) powder in a form of rutile was used for producing asphalt concrete with lower mixing and compaction temperature compared to conventional hot mix asphalt without reducing its physical and mechanical also resistance to fatigue. The characteristic of the asphalt and modified asphalt was evaluated using penetration test, softening test and rotational viscosity test. Titanium dioxide of 2%, 4%, 6%, 8% and 10% by weight of asphalt has been incorporated into unaged 80/100 asphalt mix in order to improvise its performance and to fulfill the objectives of this experimental study. As a result, TiO2 as an additive is potential to decrease the penetration and increasing the softening point of the asphalt. In terms of fatigue performance testing, addition TiO2 additive does help in improving the fatigue properties as it shows greater result than the control asphalt. In conclusion, TiO2 is great in improving fatigue properties.

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The Influence of Eggshell as Coarse Aggregate Replacement in Hot Mix Asphalt

CONSTRUCTION ◽

10.15282/construction.v1i1.6180 ◽

2021 ◽

Vol 1 (1) ◽

pp. 1-11

Author(s):

Ng Cui Ming ◽

Ramadhansyah Putra Jaya ◽

Haryati Awang

Keyword(s):

Hot Mix Asphalt ◽

Coarse Aggregate ◽

Asphalt Mixture ◽

Aggregate Size ◽

Modified Asphalt ◽

The Road ◽

Road Pavement ◽

Road Users ◽

Indirect Tensile ◽

Pavement Structures

Hot Mix Asphalt (HMA) is the most commonly used in Malaysia for highways, interstates and roads due to its flexibility, economical, strong and provide safe riding quality for road users. Over the years, the increase of damage on pavement roads in Malaysia has become a severe issue although the road did not achieve its design life. Hence, to reduce damage and defect, an improvised road pavement structures is needed. Various studies have been conducted to identify the new materials that can be used as a replacement in hot mix asphalt. In this research, the purpose is to evaluate the performance of eggshell as coarse aggregate replacement in hot mix asphalt. The gradation for aggregate used in this mixture is AC14. The weight for total mixing of the aggregates used is 1200g while the grade for bitumen is 60/70. The samples were mixed with eggshell in the various percentages of 0%, 5%, 10%, 15% and 20% by total weight of aggregate size 5mm. The laboratory tests carried out to determine the properties of aggregates included, aggregate impact value and aggregate crushing value. Besides, penetration and softening point were also performed to determine the properties of bitumen. Several types of test were conducted towards the samples, which are Marshall Test, Indirect Tensile Strength and Cantabro Test. The results exhibit that the conventional asphalt mixture is more effective than modified asphalt mixture. The replacement of eggshell as coarse aggregate was not enough improvement to the performance of asphalt pavement as the performance of conventional mixture is more stable than modified mixture.

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Evaluation of Using Natural Fillers to Improve Moisture Damage Resistance and the Use of Pull-Off Tensile Test in Determining Moisture Damage Resistance in Asphalt Mixture

Applied Sciences ◽

10.3390/app10124318 ◽

2020 ◽

Vol 10 (12) ◽

pp. 4318 ◽

Cited By ~ 1

Author(s):

Kroekphon Rachabut ◽

Preeda Chaturabong

Keyword(s):

Tensile Strength ◽

Adhesive Bonding ◽

Asphalt Mixture ◽

Moisture Damage ◽

Concrete Surface ◽

Potential Method ◽

Damage Resistance ◽

Indirect Tensile ◽

Mineral Fillers ◽

Natural Fillers

Moisture is one of the critical failures affecting asphalt pavement. It has been recently found that moisture created by rainwater and undrained water deteriorate the bonding interface between asphalt mastic and aggregate. Using different mineral fillers can lead to different moisture resistance in the same mix design. Nowadays, waste natural materials allow agriculturists to receive more income by recycling in many industries. In this study, the researchers adopted bagasse and coconut peat grinding into very fine particle passing through the sieve number 200 (0.075 mm) to replace the mineral fillers. Although the indirect tensile strength (ITS) test is commonly used for evaluating the moisture damage resistance of hot-mix asphalt (HMA) in a laboratory, there are some shortcomings in using this test, such as costly, heavy and indirect equipment. Another potential test that is likely to be more advantageous than the ITS test for evaluating the moisture damage resistance is the pull-off tensile strength (POTS) test. However, it is typically measured on a concrete surface, and no results using an asphalt mixture have been reported. The objectives in this study were to investigate the effects of waste natural fillers in asphalt mixture on adhesive bonding caused by moisture, and to determine whether the POTS test is a potential method in measuring moisture damage resistance in a laboratory. Results showed that the tensile strength ratios (TSR) of asphalt mixture with bagasse and coconut peat fillers are approximately equivalent to those with mineral fillers. Results also showed that asphalt mixtures with bagasse and coconut peat fillers can effectively prevent the moisture damage resistance. In addition, with the preliminary result, it was found that the POTS test showed a very good R square (R2) for a relation of TSR with the ITS test. As a result, the POTS can be a valid tool of quantifying moisture damage resistance with better simulating to field behavior, lower cost of equipment, and light weight.

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