A study of sand-asphalt mixtures: a constitutive model based on a thermomechanical framework and experimental corroboration

Ravindran, Parag

02 June 2009

Asphalt bound mixtures have been put to diverse uses. The complicated nature of the material and the demanding conditions under which it is used preclude complete solutions to questions on load bearing capability under field conditions. In proportion to the quantity of its usage and in acknowledgment of modeling complexity, the material has been interrogated by many researchers using a variety of mechanical tests, and a plethora of linear viscoelastic models have been developed. Most models are intended to account for specific classes of problems. This work addresses the conspicuous absence of systematic documentation of normal forces generated as a result of shear. The normal force generated during simple shear is a clear indication of the nonlinear nature of the material. The effect of fillers (hydrated lime and limestone), air voids, aggregate gradation, asphalt source and step loading on normal force generation during torsion is experimentally investigated. Based on experimental evidence, a non-linear thermomechanical model for sandasphalt mixtures based on the idea of multiple natural configurations is developed. The model accounts for the fact that the mixture has a natural configuration (stressfree configuration) which evolves as it is subjected to loads. Assumptions are made regarding the manner in which the material stores and dissipates energy. A key assumption is that among the various constitutive relations possible, the one that is chosen is the one that maximizes the rate of entropy production. The model that is developed accounts for the anisotropic nature of the response. The experimental results show that asphalt bound mixtures generate significant normal forces even at low rotation rates. The source of asphalt, aggregate gradation, fillers and air voids have a pronounced effect on normal stress generation. The model is corroborated against data from torsion experiments.

Sand-Asphalt Mixtures

Normal Forces

Constitutive Model

Study of properties of sand asphalt using a torsional rheometer

Kasula, Lavan Kumar Reddy

15 November 2004

The modeling of Sand Asphalt and experiments to measure their rheological properties are of vital concern to many industrial processes especially highway and roadway pavement construction industry. A variety of hot mix asphalt mixtures are used in highway and runway pavement construction, with each mixture catering to a specific need. These mixtures vary in type and percentage of aggregates and asphalt used and consequently exhibit marked differences in their response. The main thrust of this research is to provide experimental data which would be helpful in determining the efficacy of the constitutive models that have been developed for these hot mix asphalt mixtures. Here we attempt to provide experimental data in the raw form for Sand Asphalt mixtures that would be helpful in the theoretical modeling efforts involving asphalt materials using a continuum point of view. For example the data obtained can be of immense help to evaluate the constitutive model developed by Murali Krishnan and Rajagopal. The Sand Asphalt mixture in their model is modeled as `homogenized' single constituent due to the peculiarity of its makeup. The constitutive model of Murali Krishnan and Rajagopal is based on a thermodynamical framework for materials possessing multiple natural configurations (multiple stress free states) to derive the constitutive equations. Recently an Orthogonal Rheometer was built to characterize the granular solids by Gupta and Rajagopal which was later used by Baek in the torsional mode. In this work we have used the same Torsional Rheometer with some minor modifications in the design to measure some general properties of Sand Asphalt mixtures. Sand Asphalt mixtures, due to their non-linear viscoelastic character, exhibit `normal stress effects' and `stress relaxation'. The Rheometer that we used was able to capture these responses with high precision. We have laid out proper procedures for the further testing of asphalt related mixtures. A typical sand asphalt mixture sample in cylindrical shape was used as the test specimen. From this work some interesting data was obtained. A remarkable observation was that as the shear rate is increased, the normal force and torque generated initially decrease, but beyond a certain shear rate they attain a constant value.

Torsional Rheometer

Torsional flow

Rheometer

sand asphalt mixture

Orthogonal Rheometer

Study of properties of sand asphalt using a torsional rheometer

Kasula, Lavan Kumar Reddy

15 November 2004

The modeling of Sand Asphalt and experiments to measure their rheological properties are of vital concern to many industrial processes especially highway and roadway pavement construction industry. A variety of hot mix asphalt mixtures are used in highway and runway pavement construction, with each mixture catering to a specific need. These mixtures vary in type and percentage of aggregates and asphalt used and consequently exhibit marked differences in their response. The main thrust of this research is to provide experimental data which would be helpful in determining the efficacy of the constitutive models that have been developed for these hot mix asphalt mixtures. Here we attempt to provide experimental data in the raw form for Sand Asphalt mixtures that would be helpful in the theoretical modeling efforts involving asphalt materials using a continuum point of view. For example the data obtained can be of immense help to evaluate the constitutive model developed by Murali Krishnan and Rajagopal. The Sand Asphalt mixture in their model is modeled as `homogenized' single constituent due to the peculiarity of its makeup. The constitutive model of Murali Krishnan and Rajagopal is based on a thermodynamical framework for materials possessing multiple natural configurations (multiple stress free states) to derive the constitutive equations. Recently an Orthogonal Rheometer was built to characterize the granular solids by Gupta and Rajagopal which was later used by Baek in the torsional mode. In this work we have used the same Torsional Rheometer with some minor modifications in the design to measure some general properties of Sand Asphalt mixtures. Sand Asphalt mixtures, due to their non-linear viscoelastic character, exhibit `normal stress effects' and `stress relaxation'. The Rheometer that we used was able to capture these responses with high precision. We have laid out proper procedures for the further testing of asphalt related mixtures. A typical sand asphalt mixture sample in cylindrical shape was used as the test specimen. From this work some interesting data was obtained. A remarkable observation was that as the shear rate is increased, the normal force and torque generated initially decrease, but beyond a certain shear rate they attain a constant value.

Torsional Rheometer

Torsional flow

Rheometer

sand asphalt mixture

Orthogonal Rheometer

Influências da perda de umidade antes da compactação em misturas de areia-asfalto a frio feitas com emulsão asfáltica catiônica de ruptura lenta / not available

Silva Júnior, Carlos Alberto Prado da

30 June 2000

O preparo de misturas de areia-asfalto a frio com emulsão asfáltica possui algumas características que dificultam a avaliação de seu desempenho através de ensaios de laboratório. Estas características são atribuídas à emulsão asfáltica que necessita de cuidados adicionais em relação a outros tipos de ligantes betuminosos. Um desses cuidados é o procedimento de cura antes da compactação para favorecer a perda de umidade das misturas. Neste trabalho é avaliada a influência da perda de umidade de três tipos de misturas de areia-asfalto a frio - misturas sem filler, com filler de pedregulho britado e com filler de cimento Portland, sobre os resultados de alguns ensaios de laboratório. Os ensaios usados para esta avaliação foram: dosagens sem cura e com cura antes da compactação das misturas; controle da perda de umidade; ensaios Marshall com variação da perda de umidade e fluência por compressão uniaxial estática. A perda de umidade antes da compactação das misturas mostrou-se um importante fator de influência nos resultados do ensaio Marshall. Porém, o ensaio de fluência por compressão uniaxial estática revelou que mesmo as misturas com melhor desempenho no ensaio Marshall são muito suscetíveis à deformação permanente e com ruptura frágil mesmo sob a ação de tensões axiais relativamente baixas. / The preparation of cold sand-asphalt mixtures with asphalt emulsion has some characteristics that can affect the laboratory evaluation of its performance. These characteristics are attributed to asphaltic emulsion that needs additional cares in relation to others types of bituminous binders. One of these cares is the curing procedure before compaction, to favor moisture loss. In this work the influence of moisture loss on the results of some laboratory tests is evaluated for three cold sand-asphalt mixtures - mixtures without filler, with crushed gravel filler and with portland cement filler. The tests used for this evaluation are: optimum asphalt content with and without curing before the mixtures compaction, moisture loss control, Marshall tests with moisture loss variation and static creep test. Moisture loss before compaction showed to have a clear influence on the results of Marshall tests. However the static creep test revealed that even those mixtures with the best Marshall test performances are very susceptible to permanent deformation and fragile rupture under low axial stress.

Areia-asfalto

Areia-asfalto a frio

Asphaltic emulsions

Cold mixtures

Cold sand-asphalt

Cura antes da compactação

Curing before the compaction

Emulsões asfálticas

Misturas a frio

Sand-asphalt

Influências da perda de umidade antes da compactação em misturas de areia-asfalto a frio feitas com emulsão asfáltica catiônica de ruptura lenta / not available

Carlos Alberto Prado da Silva Júnior

30 June 2000

O preparo de misturas de areia-asfalto a frio com emulsão asfáltica possui algumas características que dificultam a avaliação de seu desempenho através de ensaios de laboratório. Estas características são atribuídas à emulsão asfáltica que necessita de cuidados adicionais em relação a outros tipos de ligantes betuminosos. Um desses cuidados é o procedimento de cura antes da compactação para favorecer a perda de umidade das misturas. Neste trabalho é avaliada a influência da perda de umidade de três tipos de misturas de areia-asfalto a frio - misturas sem filler, com filler de pedregulho britado e com filler de cimento Portland, sobre os resultados de alguns ensaios de laboratório. Os ensaios usados para esta avaliação foram: dosagens sem cura e com cura antes da compactação das misturas; controle da perda de umidade; ensaios Marshall com variação da perda de umidade e fluência por compressão uniaxial estática. A perda de umidade antes da compactação das misturas mostrou-se um importante fator de influência nos resultados do ensaio Marshall. Porém, o ensaio de fluência por compressão uniaxial estática revelou que mesmo as misturas com melhor desempenho no ensaio Marshall são muito suscetíveis à deformação permanente e com ruptura frágil mesmo sob a ação de tensões axiais relativamente baixas. / The preparation of cold sand-asphalt mixtures with asphalt emulsion has some characteristics that can affect the laboratory evaluation of its performance. These characteristics are attributed to asphaltic emulsion that needs additional cares in relation to others types of bituminous binders. One of these cares is the curing procedure before compaction, to favor moisture loss. In this work the influence of moisture loss on the results of some laboratory tests is evaluated for three cold sand-asphalt mixtures - mixtures without filler, with crushed gravel filler and with portland cement filler. The tests used for this evaluation are: optimum asphalt content with and without curing before the mixtures compaction, moisture loss control, Marshall tests with moisture loss variation and static creep test. Moisture loss before compaction showed to have a clear influence on the results of Marshall tests. However the static creep test revealed that even those mixtures with the best Marshall test performances are very susceptible to permanent deformation and fragile rupture under low axial stress.

Areia-asfalto

Areia-asfalto a frio

Cura antes da compactação

Emulsões asfálticas

Misturas a frio

Asphaltic emulsions

Cold mixtures

Cold sand-asphalt

Curing before the compaction

Sand-asphalt

Estudo sobre adição de polímero em areia-asfalto a frio

Silveira, Márcio Albuquerque

18 March 1999

O revestimento de areia-asfalto a frio, ainda que pouco utilizado, é uma alternativa importante para construção de rodovias de baixo volume de tráfego no Estado do Ceará. Neste trabalho é apresentado estudo comparativo entre misturas de areia-asfalto fabricadas a frio com a utilização de emulsão asfáltica convencional e emulsão modificada com polímero. O objetivo da pesquisa é avaliar, através de ensaios de creep dinâmico, creep estático e o ensaio de desgaste Cantabro, se o uso da emulsão modificada com polímero resulta em uma mistura de areia-asfalto a frio mais resistente ao desgaste e à deformação permanente. As misturas asfálticas analisadas nesta pesquisa apresentaram boa resistência ao desgaste, mas em virtude das dificuldades ocorridas nos ensaios de creep não foram encontradas evidências de que o uso de emulsão modificada com polímero produzisse uma mistura de areia-asfalto a frio mais resistente / Cold sand-asphalt surface layer, although not widely used, is an important alternative for construction of low traffic roads in Ceará State. This work presents a comparative study between cold sand-asphalt mixtures produced with standart asphaltic emulsion and polymer modified emulsion. The aim of this research is to evaluate, with use of dynamic and static creep tests and the Cantabro wear out test, if the use of a polymer modified emulsion would result in a cold sand-asphalt mixture more resistent to wear out and permanent deformation. The asphaltic mixes analyzed in this research presented high wear out resistence, but due to dificulties occurred in creep tests there were not found evidences that the use of polymer modified emulsion would produce a more resistent cold sand-asphalt mixture

areia-asfalto

cold mixes

emulsão

emulsion

misturas a frio

pavimentação

polímero

polymer

sand-asphalt

Estudo sobre adição de polímero em areia-asfalto a frio

Márcio Albuquerque Silveira

18 March 1999

O revestimento de areia-asfalto a frio, ainda que pouco utilizado, é uma alternativa importante para construção de rodovias de baixo volume de tráfego no Estado do Ceará. Neste trabalho é apresentado estudo comparativo entre misturas de areia-asfalto fabricadas a frio com a utilização de emulsão asfáltica convencional e emulsão modificada com polímero. O objetivo da pesquisa é avaliar, através de ensaios de creep dinâmico, creep estático e o ensaio de desgaste Cantabro, se o uso da emulsão modificada com polímero resulta em uma mistura de areia-asfalto a frio mais resistente ao desgaste e à deformação permanente. As misturas asfálticas analisadas nesta pesquisa apresentaram boa resistência ao desgaste, mas em virtude das dificuldades ocorridas nos ensaios de creep não foram encontradas evidências de que o uso de emulsão modificada com polímero produzisse uma mistura de areia-asfalto a frio mais resistente / Cold sand-asphalt surface layer, although not widely used, is an important alternative for construction of low traffic roads in Ceará State. This work presents a comparative study between cold sand-asphalt mixtures produced with standart asphaltic emulsion and polymer modified emulsion. The aim of this research is to evaluate, with use of dynamic and static creep tests and the Cantabro wear out test, if the use of a polymer modified emulsion would result in a cold sand-asphalt mixture more resistent to wear out and permanent deformation. The asphaltic mixes analyzed in this research presented high wear out resistence, but due to dificulties occurred in creep tests there were not found evidences that the use of polymer modified emulsion would produce a more resistent cold sand-asphalt mixture

areia-asfalto

emulsão

misturas a frio

pavimentação

polímero

cold mixes

emulsion

polymer

sand-asphalt