A Comprehensive Study towards Increasing the Use of Recycled Materials in Asphalt Pavements

Obaid, Arkan Khudhayer

January 2019

No description available.

Civil Engineering

Asphalt Pavements

Ground Tire Rubber

Reclaimed Asphalt Pavement

Atomic Force Microscopy

DURABILITY STUDY OF REJUVENATED RAP BINDERS / Undersökning av beständigheten hos föryngrat bitumen

Lay, An Na

January 2022

När priset på naturtillgångar ökar samt att industrier måste ställa om till en mer hållbar verksamhet innebär detta även en omställning för asfaltsindustrin. Ett sätt för att använda mer återvunnet material i asfaltsindustri är att använda bindemedlet från gammal asfaltsmassa (eng.: reclaimed asphalt pavement, RAP). Detta kan dock inte göras utan komplikationer och därför måste bindemedlet föryngras innan för att kompensera för faktorer så som hög styvhet, låg krakning och trötthetsförmåga samt dålig anti-åldring förmåga hos RAPen. I det här projektet har två olika typer av föryngringsmedel använts; ett växtoljebaserat och ett petroleumbaserat mjukbitumen. Detta för att se om det var möjligt att använda förnybart och återvunnet material i bindemedlet men fortfarande uppnå samma prestanda som konventionellt bindemedel. Två blandningar gjordes hjälp av de två olika föryngringsmedlen och RAPen och analyserades parallellt med ett referensmaterial. Analyserna delades upp i två kategorier: reologi och kemi. Analyserna som föll under reologikategorin var mjukpunkt- och penetrationsanalyser, samt analyser med en dynamisk skjuvning reometer (eng.: dynamic shear rheometer, DSR) och en böjbalksreometer (eng.: bending beam rheometer, BBR). Under kemikategorin fanns analysmetoderna tunnskiktskromatografi med flamjoniseringsdetektor (TLC-FID) och Fourier transform infraröd spektroskopi (FTIR). Resultaten påvisar att åldring påverkas mycket av vilket föryngringsmedel som används, vilket blev tydligt när den reologiska förmågan testades. De kemiska analyserna gav stort sett liknade resultat oberoende av bindemedel. Blandningen som innehöll RAP och mjukbitumen visade sig vara mer mottagligt för åldring jämfört med den andra blandningen som innehöll växtolja, trots att den blandningen innehåller längre halt av RAPen. Vidare visar resultaten att blandningar kan prestera likt referensmaterialet när det kommer till reologi. Från den kemiska aspekten, uppvisar alla bindemedelsmaterial liknande egenskaper. Därför kan slutsatsen att RAPen var återvunnen med framgång när växtolja och mjukbitumen användes. / In recent years there has been a lot of focus on reduction of carbon footprint and sustainable development. For the asphalt industries, a way of doing this is to use reclaimed asphalt pavement (RAP) binders. This cannot be done without any complications and therefore, the RAP binder is normally rejuvenated to compensate for its high stiffness, and other poor properties like susceptibility to low temperature cracking and fatigue damage. In this project, two different ways of using RAP binder are investigated: one vegetable oil-based rejuvenator and one soft bitumen. Using the rejuvenator and soft bitumen together with a RAP binder, two different blends were made and compared to a reference bitumen which is commonly used in Sweden. The blends were made in such a way that the penetration values were close to the reference sample. Aging tests were performed by RTFOT and PAV. The testing of the non-aged and aged binder materials was divided into two sections: rheology and chemistry. The rheology testing included softening point, needle penetration, analysis with dynamic shear rheometer (DSR) and bending beam rheometer (BBR) whereas the chemistry testing included thin layer chromatography with flame ionization detector (TLC-FID) and Fourier transform infrared spectroscopy (FTIR). The results indicated that the ageing resistance of the binder materials is affected by the type of rejuvenator used which especially affects the rheological performance. The chemical performance was almost the same in each blend. The blend containing RAP binder and soft bitumen was more susceptible to ageing compared to the other blend containing oil-based rejuvenator even though the blend contained less of the RAP binder. The results also shows that the blends can perform equal to the reference sample for a rheological point of view. From a chemical point of view, the binders, including the reference, have the same properties. Therefore, the RAP binder was successfully recycled using both a bio-oil rejuvenator and soft bitumen.

RAP (reclaimed asphalt pavement)

rejuvenator

bitumen

rheology

ageing

RAP

bitumen

föryngringsmedel

reologi

åldring

Chemical Engineering

Kemiteknik

Micro-Scale Evaluation of Sustainable Asphalt Materials

AbuQtaish, Lana H.

January 2017

No description available.

Civil Engineering

Asphalt binder

Atomic force microscopy

adhesion

modulus

GPC

FTIR

reclaimed asphalt pavement

blending

Effect of rejuvenators on rheological properties of asphalt binders

Alin, Maishah

06 June 2018

No description available.

Civil Engineering

Transportation

High Performance Granular Base and Subbase Materials Incorporating Reclaimed Asphalt Concrete Pavement

Luo, Cong

January 2014

This study focused on the material characterization of granular materials containing different percentages of “RAP”. A series of laboratory tests results were carried out to determine the physical and mechanical properties of natural aggregates and various aggregate-RAP blends. The results were used to evaluate methods to develop high-performance granular layer for pavement construction through proper compaction and control of RAP usage. The resilient modulus and accumulative deformation characteristics were determined in relation to RAP content, relative density, compaction method, stress level, stress state and the number of load applications. The effects of RAP content and density on the CBR values of aggregate-RAP blends under various conditions were also investigated. In addition, the effect of small strain cyclic loading on shear strength of aggregate-RAP blends was observed in laboratory tests. Results from this investigation demonstrated that: 1) adding RAP to natural aggregates may increase the resilient modulus of natural aggregates, and optimum content can be found to achieve the highest resilient modulus; 2) resilient modulus generally increases with density; higher density of aggregate-RAP blends can be achieved by using methods combining vibration and static loading. 3) deviatoric stress has more pronounced influence on accumulative deformation than confining pressure. 4) proper compaction method can reduce accumulative deformation of samples. 5) addition of RAP into aggregates results in little change in accumulative deformation when the RAP content is less than a threshold. 6) CBR value decreases with increasing RAP content and decreasing compaction effort or compacted dry density. 7) shear strength of an aggregate-RAP blend tends to increase after small strain cyclic loading. / Thesis / Master of Applied Science (MASc)

reclaimed asphalt pavement

granualr base and subbase

pavement engineering

resilient modulus

accumulative deformation

CBR

Analysis of the Physiochemical Interactions of Recycled Materials in Concrete

Lowry, Michael Donovan

18 January 2023

This thesis broadly addresses the issue of materials sustainability in the production of Portland cement concrete. Two methods are presented, both aimed at achieving more sustainable concrete through the use of waste and recycled materials. The first method involves utilizing reclaimed asphalt pavement (RAP) as an aggregate in structural concrete, and the second method involves utilizing waste quarry fines as partial replacement of Portland cement in concrete mixes. Many efforts have been made in recent years to justify the use of RAP aggregates in concrete. All previous efforts appear to unanimously report a reduction in concrete performance with varying proportions of RAP usage. The poor performance of RAP aggregates in concrete is attributed mainly to a larger, more porous interfacial transition zone (ITZ) and to the cohesive failure of the asphalt. It is hypothesized that the detrimental impact on the ITZ is attributable to organic compounds leached from the asphalt in the high pH pore solution. This study proves the presence of organic compounds in the pore solution and demonstrates that there is an apparent retardation of cement hydration. This study also attempted to pretreat the RAP in a sodium hydroxide (NaOH) solution to pre-leach the organic compounds. The pretreatment demonstrated that organic compounds were leached and that NaOH modified the asphalt surface chemistry. However, only a marginal improvement in compressive strength was observed by completing the pretreatment. Replacement of Portland cement by filler products is a practice aimed at reducing the carbon footprint of concrete, such as is common with Type IL Portland limestone cement. This study investigates the impact of replacing cement with seven different quarry fines materials. The quarry fines were used to replace cement at 5% to 20% by volume in either cement paste or mortar samples that were then analyzed for various physicochemical properties. It was found that all the quarry fines had detrimental impact on the hydration kinetics of cement pastes. The inclusion of quarry fines was also found to cause varying degrees of reduction in mortar compressive strength. While further analyses of the quarry fines are required, quarry fines 2, 5 and 7 did display encouraging signs to suggest the potential for use as a filler material in blended cements. / Master of Science / This thesis broadly addresses the issue of sustainability in the cement and concrete industry. Sustainability is a significant problem for the cement and concrete industry due to the large amount of carbon emissions produced in the manufacturing process of Portland cement. One method to reduce the carbon footprint of concrete is to use recycled aggregates, and reclaimed asphalt pavement (RAP) is investigated in this thesis as a recycled aggregate option. Previous studies have shown that the use of RAP in concrete results in poor mechanical performance when compared to conventional concrete. In this thesis, the RAP was pretreated by soaking it in sodium hydroxide (NaOH) to see if any improvement is noted. It was determined that the pretreatment resulted in marginal improvements in concrete performance. Another method to reduce the carbon footprint of concrete is through the use of substitutions of Portland cement. In this thesis, quarry fines from around Virginia were investigated for potential as substitutive material. Quarry fines are a by-product from quarrying operations and are often considered a waste material because they have limited applications. This study analyzed the performance of cementitious materials prepared with various substitutive percentages of quarry fines and found that, in general, the inclusion of quarry fines resulted in a decrease of mechanical performance. In total, seven quarry fines were tested and only two showed potential for use as a substitution in Portland cement concrete. These two investigations are essential in reaching the goal of reducing the carbon footprint of the cement and concrete industry.

Reclaimed Asphalt Pavement

Quarry Fines

Isothermal Calorimetry

Pore Solution Extraction

Evaluation of reclaimed asphalt pavement materials from ultra-thin bonded bituminous surface

Musty, Haritha Yadav

January 1900

Master of Science / Department of Civil Engineering / Mustaque Hossain / The ultra-thin bonded bituminous surface (UBBS), popularly known as Novachip, is a thin hot-mix asphalt layer with high-quality, gap-graded aggregates bonded to the existing surface with a polymer-modified emulsion membrane. This thin surfacing improves ride quality, reduces road-tire noise, minimizes back spray, and increases visibility under wet conditions. The Kansas Department of Transportation (KDOT) has been using UBBS since 2002. Performance of this thin surface treatment strategy has been good in Kansas and elsewhere. However, some of these projects are now being rehabilitated. The objective of this study is to evaluate whether reclaimed asphalt pavement (RAP) materials from existing UBBS layers can be used in chip seal and Superpave mixtures. UBBS millings were studied with two different polymer-modified emulsions to assess their performance as precoated aggregates in chip seal. The ASTM D7000-04 sweep test was used to assess chip retention of UBBS millings. Three different mix designs were developed for both 12.5-mm and 9.5-mm nominal maximum aggregate size (NMAS)Superpave mixtures using a PG 70-22 asphalt binder and three different percentages (0%, 10%, and 20%) of reclaimed UBBS materials. The designed Superpave mixes were then tested for performance in terms of rutting and stripping using the Hamburg wheel tracking device (HWTD)and moisture sensitivity by modified Lottman tests. Sweep test results showed that UBBS millings did not improve chip retention. Superpave mix design data indicated volumetric properties of Superpave mixes with UBBS millings met all requirements specified by KDOT. HWTD and modified Lottman test results indicated all designed mixes performed better with the addition of UBBS millings as RAP materials. Field performance of UBBS projects was also evaluated. It was found that pavements treated with UBBS showed high variability in service life with majority serving six years. Before and after (BAA) studies showed that UBBS reduces pavement roughness, transverse and fatigue cracking one year after the treatment. However, no consistent improvement in rutting condition was found.

Ultra-Thin Bonded Bituminous Surface

Chip Seal

Reclaimed Asphalt Pavement

Rutting

Moisture Susceptibilty

Hamburg Wheel Tracking Device

Civil Engineering (0543)

Estudo de mistura asfáltica reciclada a frio produzida com 100% de revestimento asfáltico fresado e agente de reciclagem emulsionado. / Study of a cold recycled asphalt mix produced with 100% of reclaimed asphalt pavement and emulsified asphalt recycling agent.

Unger Filho, Wilson

18 December 2018

A restauração de pavimentos flexíveis ocasiona, em todo o mundo, problemas ambientais em função do descarte dos materiais provenientes da demolição do pavimento existente, um dos motivos pelo qual a reciclagem de pavimentos tem se mostrado, cada vez mais, uma técnica sustentável e necessária, tanto na manutenção quanto na construção de novas estruturas. Na atualidade, existem as mais diversas técnicas de reciclagem. Neste trabalho, avaliou-se a reciclagem do revestimento asfáltico fresado (RAP) com a adição de agente de reciclagem emulsionado (ARE), estudando a viabilidade de seu emprego em bases asfálticas de pavimentos novos. Por meio de um programa laboratorial de ensaios, foi realizada a análise da estocagem, cura e compactação de uma mistura produzida em uma usina de reciclagem a frio. Para tanto, utilizou-se os parâmetros de módulo de resiliência (MR), resistência à tração por compressão diametral (RTCD) e dano por umidade induzida (DUI). A compactação da mistura no laboratório foi realizada com o Compactador Giratório SUPERPAVE (CGS) e com o Compactador Marshall, sendo avaliada a influência do tempo de estocagem, que é o tempo transcorrido entre a mistura e a compactação (na condição solta), e o tempo de cura após a compactação dos corpos de prova. Os resultados indicam que os parâmetros de MR, RTCD e DUI aumentaram quando a mistura solta permaneceu estocados, pela provável interação entre o agente de reciclagem emulsionado e o ligante asfáltico oxidado do RAP. Foi observado ainda um ganho substancial nos valores de MR e RTCD durante o período de cura, o qual foi pouco influenciado pela estocagem prévia do material. Quanto ao efeito do tipo de compactação, foi possível observar que os corpos de prova produzidos no CGS apresentaram maiores valores de RTCD, MR e DUI em relação aos corpos de prova do compactador Marshall, chegando, inclusive, a dobrar o valor de RTCD após 56 dias de cura. Também foi realizada a construção de dois trechos experimentais com a mistura reciclada estudada, visando o acompanhamento da execução, assim como, o monitoramento do desempenho da mistura, em campo, ao longo do tempo. Constatou-se que foi possível atingir a densidade obtida na compactação Marshall desde que sejam utilizados rolos compactadores adequados e que a espessura da camada seja limitada em até 8 cm. Já os levantamentos deflectométricos realizados durante o monitoramento confirmaram o comportamento mecânico observado em laboratório, indicando o ganho de rigidez da base reciclada ao longo do tempo. Conclui-se, portanto, que o emprego da mistura a frio de RAP com agente de reciclagem emulsionado é uma alternativa viável para a construção de bases de pavimentos rodoviários novos. / Asphalt pavements maintenance produces worldwide residues from milling of deteriorated pavements. Therefore, pavement recycling is a sustainable and necessary technique for new pavement construction and rehabilitation. Nowadays, there many technologies to apply recycling to pavement maintenance. This study evaluated the reuse of the reclaimed asphalt pavement (RAP) mixed with emulsified asphalt recycling agent and its viability to be used as an asphalt base course in new pavements. A laboratory program was used to assess the storage, the cure and compaction of a mix of RAP - emulsified asphalt recycling agent produced in a cold central plant recycling plant (CCPR). The resilient modulus (MR), the indirect tensile strength (ITS) and the moisture induced damage (MID), were used. The compaction at the laboratory was performed using de Superpave Gyratory Compactor (SGC) and the Marshall compactor. The storage period is referred as the time elapsed between the mix and the compaction, in the loose condition. On the other hand, the curing period is associated to the period elapsed after compaction of the specimens. Results showed that the storage period has little effect on the MR, ITS and MID parameters. However, this period was important to likely allow the emulsified asphalt recycling agent to interact with the aged asphalt binder from the RAP. It was observed a substantial increase of MR and ITS parameters during the curing and, again, the storage period had little effect on this. Regarding the compaction method, the SGS specimens had higher values at ITS, MR and MID values, when compared to the Marshall specimens. At the curing time of 56 days, the ITS was doubled at the SGS specimens. Additionally, this study performed the construction of two trial sections with the studied mix. The goal was to register the execution and assess its performance in field during a period. It was verified that in field is possible to reach Marshall densities, since adequate roller compactors are used with specific thickness. The performance of the trial sections was done from FWD testing. These results confirmed the laboratory mechanical behavior of the recycled cold mix, showing that the curing increase of the stiffness. Therefore, it is concluded that the cold mix using emulsified asphalt recycling agent is a viable alternative for the base course construction of new road pavements.

Asphalt paving

Cold recycling

Material asfáltico fresado

Pavement

Pavimentação

Pavimentação asfáltica

Reciclagem a frio

Sustentabilidade

Estudo de mistura asfáltica reciclada a frio produzida com 100% de revestimento asfáltico fresado e agente de reciclagem emulsionado. / Study of a cold recycled asphalt mix produced with 100% of reclaimed asphalt pavement and emulsified asphalt recycling agent.

Wilson Unger Filho

18 December 2018

A restauração de pavimentos flexíveis ocasiona, em todo o mundo, problemas ambientais em função do descarte dos materiais provenientes da demolição do pavimento existente, um dos motivos pelo qual a reciclagem de pavimentos tem se mostrado, cada vez mais, uma técnica sustentável e necessária, tanto na manutenção quanto na construção de novas estruturas. Na atualidade, existem as mais diversas técnicas de reciclagem. Neste trabalho, avaliou-se a reciclagem do revestimento asfáltico fresado (RAP) com a adição de agente de reciclagem emulsionado (ARE), estudando a viabilidade de seu emprego em bases asfálticas de pavimentos novos. Por meio de um programa laboratorial de ensaios, foi realizada a análise da estocagem, cura e compactação de uma mistura produzida em uma usina de reciclagem a frio. Para tanto, utilizou-se os parâmetros de módulo de resiliência (MR), resistência à tração por compressão diametral (RTCD) e dano por umidade induzida (DUI). A compactação da mistura no laboratório foi realizada com o Compactador Giratório SUPERPAVE (CGS) e com o Compactador Marshall, sendo avaliada a influência do tempo de estocagem, que é o tempo transcorrido entre a mistura e a compactação (na condição solta), e o tempo de cura após a compactação dos corpos de prova. Os resultados indicam que os parâmetros de MR, RTCD e DUI aumentaram quando a mistura solta permaneceu estocados, pela provável interação entre o agente de reciclagem emulsionado e o ligante asfáltico oxidado do RAP. Foi observado ainda um ganho substancial nos valores de MR e RTCD durante o período de cura, o qual foi pouco influenciado pela estocagem prévia do material. Quanto ao efeito do tipo de compactação, foi possível observar que os corpos de prova produzidos no CGS apresentaram maiores valores de RTCD, MR e DUI em relação aos corpos de prova do compactador Marshall, chegando, inclusive, a dobrar o valor de RTCD após 56 dias de cura. Também foi realizada a construção de dois trechos experimentais com a mistura reciclada estudada, visando o acompanhamento da execução, assim como, o monitoramento do desempenho da mistura, em campo, ao longo do tempo. Constatou-se que foi possível atingir a densidade obtida na compactação Marshall desde que sejam utilizados rolos compactadores adequados e que a espessura da camada seja limitada em até 8 cm. Já os levantamentos deflectométricos realizados durante o monitoramento confirmaram o comportamento mecânico observado em laboratório, indicando o ganho de rigidez da base reciclada ao longo do tempo. Conclui-se, portanto, que o emprego da mistura a frio de RAP com agente de reciclagem emulsionado é uma alternativa viável para a construção de bases de pavimentos rodoviários novos. / Asphalt pavements maintenance produces worldwide residues from milling of deteriorated pavements. Therefore, pavement recycling is a sustainable and necessary technique for new pavement construction and rehabilitation. Nowadays, there many technologies to apply recycling to pavement maintenance. This study evaluated the reuse of the reclaimed asphalt pavement (RAP) mixed with emulsified asphalt recycling agent and its viability to be used as an asphalt base course in new pavements. A laboratory program was used to assess the storage, the cure and compaction of a mix of RAP - emulsified asphalt recycling agent produced in a cold central plant recycling plant (CCPR). The resilient modulus (MR), the indirect tensile strength (ITS) and the moisture induced damage (MID), were used. The compaction at the laboratory was performed using de Superpave Gyratory Compactor (SGC) and the Marshall compactor. The storage period is referred as the time elapsed between the mix and the compaction, in the loose condition. On the other hand, the curing period is associated to the period elapsed after compaction of the specimens. Results showed that the storage period has little effect on the MR, ITS and MID parameters. However, this period was important to likely allow the emulsified asphalt recycling agent to interact with the aged asphalt binder from the RAP. It was observed a substantial increase of MR and ITS parameters during the curing and, again, the storage period had little effect on this. Regarding the compaction method, the SGS specimens had higher values at ITS, MR and MID values, when compared to the Marshall specimens. At the curing time of 56 days, the ITS was doubled at the SGS specimens. Additionally, this study performed the construction of two trial sections with the studied mix. The goal was to register the execution and assess its performance in field during a period. It was verified that in field is possible to reach Marshall densities, since adequate roller compactors are used with specific thickness. The performance of the trial sections was done from FWD testing. These results confirmed the laboratory mechanical behavior of the recycled cold mix, showing that the curing increase of the stiffness. Therefore, it is concluded that the cold mix using emulsified asphalt recycling agent is a viable alternative for the base course construction of new road pavements.

Material asfáltico fresado

Pavimentação

Pavimentação asfáltica

Reciclagem a frio

Sustentabilidade

Asphalt paving

Cold recycling

Pavement

Avaliação de misturas asfálticas recicladas a quente com diferentes teores de material fresado. / Evaluation of hot recycled asphalt mixes with different RAP contents.

Suzuki, Karina Yuriko

24 May 2019

Esta dissertação contempla um estudo da avaliação do efeito de diferentes teores de material fresado, conhecido como RAP (do inglês, Reclaimed Asphalt Pavement), na dosagem e no comportamento mecânico de misturas asfálticas recicladas a quente, para aplicação em camadas de revestimento de pavimento. Em uma primeira etapa, foram avaliadas, em laboratório, misturas com a incorporação de 0, 10, 20, 25, 35, 50 e 65% de material fresado, sem adição de agente rejuvenescedor (AR). Na segunda etapa, foi avaliado o comportamento das misturas com 25 e 50% de RAP, após adição de um AR de base vegetal. As misturas foram dosadas de acordo com o método Marshall e, em seguida, foram realizados os seguintes ensaios: resistência à tração por compressão diametral (RT), dano por umidade induzida (DUI), módulo de resiliência (MR), módulo dinâmico (MD), uniaxial de carga repetida para determinação do flow number e fadiga na flexão de quatro pontos. Embora o teor de ligante virgem adicionado tenha sido maior que o calculado (assumindo-se que todo o ligante asfáltico remanescente no RAP seria ativado e estaria disponível para se misturar com o ligante novo), foi possível obter uma significativa redução no consumo de ligante virgem. Em relação à RT e ao DUI, todas as misturas atenderam aos parâmetros estabelecidos nas especificações do Departamento Nacional de Infraestrutura de Transportes (DNIT) e do Departamento de Estradas de Rodagem do estado de São Paulo (DER/SP). Observou-se um aumento dos módulos de resiliência (a 25°C) para as misturas com altos teores de RAP, assim como um aumento dos módulos dinâmicos nas zonas de baixas frequências (ou elevadas temperaturas), indicando boa resistência à deformação permanente, o que foi corroborado pelos resultados de flow number. Além disso, verificou-se que, com relação à vida de fadiga, é possível produzir misturas com altos teores de RAP com propriedades similares a uma mistura convencional, ou até melhor, uma vez adicionado o agente rejuvenescedor. Adicionalmente, foram construídos três trechos experimentais, com 25% (sem AR), 25% (com AR) e 35% (com AR) de RAP na camada final de rolamento da Rodovia dos Bandeirantes (SP-348). Até o momento de conclusão desta pesquisa, observou-se um bom desempenho das misturas recicladas aplicadas. Por fim, o estudo mostrou que, não apenas o teor, mas sobretudo as características do material reciclado (tipo e propriedade do ligante envelhecido; granulometria e massas específicas do RAP), influenciam diretamente na dosagem e no comportamento mecânico das misturas. O uso de RAP com diferentes teores, de forma tecnicamente consciente, em camadas de revestimentos de pavimento é promissor em um futuro que busca cada vez mais a sustentabilidade das construções. / The aim of this study is to evaluate the effect of different RAP (Reclaimed Asphalt Pavement) contents on the design and mechanical behavior of hot recycled asphalt mixtures for application in wearing courses of pavements. In a first step, mixes with the incorporation of 0, 10, 20, 25, 35, 50 and 65% of RAP were evaluated in the laboratory without the addition of rejuvenating agent (RA). In the second step, the behavior of the mixtures with 25 and 50% of RAP was evaluated after the addition of an engineered bio-based rejuvenator. The mixtures were designed according to the Marshall method and then, the tests of indirect tensile strength (ITS), moisture susceptibility, resilient modulus, dynamic modulus, repeated uniaxial test to determine the flow number and four-point bending fatigue test were performed. Although the added virgin binder content was higher than that calculated (assuming that all the RAP binder would be active and available to blend with the neat binder), a significant reduction in the virgin binder consumption was achieved. Regarding the ITS and the moisture susceptibility results, all mixes met the requirements set by the National Department of Transportation Infrastructure (DNIT) and São Paulo DOT (DER/SP). An increase of the resilient modulus (at 25°C) was observed for high RAP mixes, as well as an increase of the dynamic modulus in low frequencies (or high temperatures) zones, indicating a good resistance to permanent deformation that was further confirmed by the flow number results. In addition, it has been found that, regarding the fatigue life, it is possible to produce high RAP mixes with similar or even better properties than a conventional mix, once the rejuvenating agent is added. Additionally, three trial sections were constructed, with 25% (without RA), 25% (with RA) and 35% (with RA) of RAP in the wearing course layer of the Bandeirantes Highway (SP-348). Until the end of this research, a good performance of the applied recycled mixtures was observed. Finally, the study showed that not only the RAP content, but also the properties of the recycled material (type and properties of the aged binder, aggregate particle size and RAP specific densities) directly influence the design and the mechanical behavior of the mixes. The use of different RAP contents in wearing courses, when technically sound, is a promising technique in the future that increasingly seeks for sustainable constructions.

Asphalt paving

Hot recycling

Material asfáltico fresado

Pavement

Pavimentação

Pavimentação asfáltica

Reciclagem a quente

Reclaimed Asphalt Pavement (RAP)

Sustainability

Sustentabilidade