Global ETD Search

81	Discrete Element Method (DEM) Analyses for Hot-Mix Asphalt (HMA) Mixture Compaction Chen, Jingsong 01 May 2011 (has links) Asphalt mixture compaction is an important procedure of asphalt mixture construction and can significantly affect the performance of asphalt pavement. Many laboratory compaction methods (or devices), have been developed to study the asphalt mixture compaction. Nevertheless, the whole process from the selection of aggregate to laboratory compaction is still time-consuming and requires significant human and material resources. In order to better understand asphalt mixture compaction, some researchers began to use finite element method (FEM) to study and analyze mixture compaction. However, FEM is a continuum approach and lacks the ability to take into account the slippage and interlocking of aggregates during compaction. Discrete Element Method (DEM) is a discontinuum analysis method, which can simulate the deformation process of joint systems or discrete particle assembly under quasi-static and dynamic condition. Therefore, it can overcome the shortcomings of FEM and is a more effective tool than FEM to simulate asphalt mixture compaction. In this study, an open source 3D DEM code implemented with the C++ programming language was modified and applied to simulate the compaction of hot-mix asphalt (HMA). A viscoelastic contact model was developed in the DEM code and was verified through comparison with well established analytical solutions. The input parameters of the newly developed contact model were obtained through nonlinear regression analysis of dynamic modulus test results. Two commonly used compaction methods (Superpave gyratory compaction and asphalt vibratory compaction) and one linear kneading compaction based on APA machine were simulated using the DEM code, and the DEM compaction models were verified through the comparison between the DEM predicted results and the laboratory measured test results. The air voids distribution within the asphalt specimens was also analyzed by post processing virtual DEM compaction digital specimens and the level of heterogeneity of the air void distribution within the specimens in the vertical and lateral directions was studied. The DEM simulation results in this study were in a relatively good agreement with the experimental data and previous research results, which demonstrates that the DEM is a feasible method to simulate asphalt mixture compaction under different loading conditions and, with further research, it could be a potentially helpful tool for asphalt mix design by reducing the number of physical compactions in the laboratory. Discrete Element Method (DEM) Hot-Mix Asphalt (HMA) Mixture Superpave Gyratory Compaction (SGC) Vibratory Compaction Method Linear Kneading Compaction Air Voids Distribution Civil Engineering
82	Influence of fundamental material properties and air void structure on moisture damage of asphalt mixes Arambula Mercado, Edith 15 May 2009 (has links) Moisture damage in asphalt mixes refers to the loss of serviceability due to the presence of moisture. The extent of moisture damage, also called moisture susceptibility, depends on internal and external factors. The internal factors relate to the properties of the materials and the microstructure distribution, while the external factors include the environmental conditions, production and construction practices, pavement design, and traffic level. The majority of the research on moisture damage is based on the hypothesis that infiltration of surface water is the main source of moisture. Of the two other principal mechanisms of water transport, permeation of water vapor and capillary rise of subsurface water, the latter has been least explored. A laboratory test and analysis methods based on X-ray computed tomography (CT) were established to assess the capillary rise of water. The amount and size of air voids filled with water were used in the capillary rise equation to estimate the distribution of the contact angles between the water and the mastic. The results were able to show the influence of air void size on capillary rise and contact angles. The relationship between air void structure and moisture susceptibility was evaluated using a fundamental fracture model based on dissipated energy of viscoelastic materials. Detailed description is provided in this dissertation on the deduction of the model equation, the selection of the model parameters, and the required testing protocols. The model parameters were obtained using mechanical tests and surface energy measurements. The microstructure of asphalt mixes prepared in the laboratory having different air void structures was captured using X-ray CT, and image analysis techniques were used to quantify the air void structure and air void connectivity. The air void structure was found to influence the mix resistance to moisture damage. To validate the fracture model, asphalt mixes with known field performance were tested. The results demonstrated that the fracture model is an effective tool to characterize moisture susceptibility. In addition, the model showed good correlation with the reported field performance of the asphalt mixes. The findings of this study will be useful to highway engineers to evaluate asphalt mixes with alternative mix designs and internal air void structures and to estimate the rate of moisture infiltration in order to maximize the resistance of asphalt mixes to moisture damage. hot mix asphalt moisture damage moisture transport capillary rise microstructure characterization X-Ray Computed Tomography image analysis fracture analysis crack growth
83	Récupération de la chaleur fatale : application aux fours rotatifs / Heat recovery exchanger applied to the rotary kiln equipment Piton, Maxime 06 November 2015 (has links) Ce travail de thèse part d’un constat : d’importantes pertes thermiques sont observées lors de l’élaboration des matériaux du génie civil. Motivés par l’ajout d’une double enveloppe, les travaux contenus dans ce manuscrit visent à caractériser un échangeur de chaleur appliqué en paroi des fours rotatifs. Tout d’abord, un modèle intégré est développé, puis validé sur une centrale d’enrobage dont la paroi intérieure du four est munie de releveurs nécessaires au mélange des matériaux. Leur distribution dans la section transversale est estimée à partir d’une loi de déchargement granulaire. Les expérimentations numériques montrent que les transferts Gaz / Solide et Solide / Paroi dominent, ce dernier phénomène limitant les performances globales du procédé. L’ajout de l’échangeur sur paroi mobile est quant à lui exploré sur un banc d’essai instrumenté de type rotor-stator, avec entrée tangentielle. Développant un écoulement de type Taylor-Couette-Poiseuille, les transferts thermiques pariétaux sont caractérisés expérimentalement. Les résultats sont sans équivoque dans la gamme de nombres de Reynolds imposés : la contribution du mouvement axial surpasse le mouvement rotationnel turbulent. Une corrélation adimensionnelle basée sur le nombre de Nusselt est proposée afin d’estimer numériquement l’effet de l’échangeur sur les profils de température internes dans le four. Enfin, les structures tourbillonnaires de l’écoulement dans l’espace annulaire sont étudiées à partir d’un code de mécanique des fluides numériques utilisant la Simulation aux Grandes Echelles. Les simulations permettent de décrire les cellules contrarotatives au sein de la couche limite turbulente dont l’amplitude et la fréquence de passages sont reliées aux paramètres de fonctionnement de l’échangeur (débit axial et vitesse de rotation du four). / This work results on a finding: the heat loss from rotary kiln represents a significant energy amount during materials processing in civil engineering domain. Motivated by traditional energy recovery methods from heat exchanger, this thesis is aimed at providing their rigorous thermodynamic diagnostics. Firstly, a thermal-granular model is developed, and then validated in asphalt plant whose the rotary kiln is composed of flights to ensure the materials mixing. Their cross-section distribution is calculated from a granular discharge law. The numerical experiments showed an increase of heat transfer phenomena between gases and solids, and those between the solids and the wall, this latter phenomenon limiting the process performances. Heat recovery exchanger applied to the rotary kiln is studied from a semi-industrial pilot based on a rotor stator configuration including a tangential inlet. Developing a Taylor-Couette-Poiseuille flow, the heat transfer results are undoubted in the range of the studied Reynolds numbers: the axial motion contribution is larger than the rotational turbulent motion. A dimension less criterion is proposed in order to be applied to the aforementioned integrated model including the heat exchanger applied to the rotary kiln, its effect being assessed upon the internal thermalprofiles. Finally, the vortices flow structure within the annular gap exchanger is studied from Large Eddy simulation. The amplitude and frequency passage of the contrarotatives cells located in the turbulent boundary layer are connected to the process parameters (the axial flowrate and the kiln shell rotation). Four rotatif Enrobé bitumineux Transfert thermique Taylor-Couette-Poiseuille Turbulence SGS Rotary kiln Hot Mix Asphalt Heat transfer Taylor-Couette-Poiseuille Turbulence LES
84	The limits of partial life cycle assessment studies in road construction practices: A case study on the use of hydrated lime in Hot Mix Asphalt Schlegel, T., Puiatti, D., Ritter, H.-J., Lesueur, D., Denayer, C., Shtiza, A. 23 September 2020 (has links) Extensive published literature shows that hydrated lime improves Hot Mix Asphalt (HMA) durability. Its impact on the environmental impact of HMA has not been investigated. This paper presents a comparative Life Cycle Assessment (LCA) for the use of HMA without hydrated lime (classical HMA) and with hydrated lime (modified HMA) for the lifetime of a highway. System boundaries cover the life cycle from cradle-to-grave, meaning extraction of raw materials to end of life of the road. The main assumptions were: 1. Lifetime of the road 50 years; 2. Classical HMA with a life span of 10 years, maintenance operations every 10 years; 3. Modified HMA with an increase in the life span by 25%, maintenance operations every 12.5 years. For the lifetime of the road, modified HMA has the lowest environmental footprint compared to classical HMA with the following benefits: 43% less primary total energy consumption resulting in 23% lower emissions of greenhouse gases. Partial LCAs focusing only on the construction and/or maintenance phase should be used with caution since they could lead to wrong decisions if the durability and the maintenance scenarios differ. Sustainable construction technologies should not only consider environmental impact as quantified by LCA, but also economic and social impacts as well. Avoiding maintenance steps means less road works, fewer traffic jams and hence less CO2 emissions. info:eu-repo/classification/ddc/380 ddc:380
85	Evaluation of HMA fracture mechanics-based thermal cracking model. Lin, Sen January 2011 (has links) Low temperature cracking is an important form of asphalt pavement deterioration in cold regions. The cracks develop when thermally induced stresses exceed the fracture resistance of the asphalt pavement. In this study, by incorporating HMA fracture mechanics into thermal cracking model, a new integrated model is introduced to investigate low temperature cracking performance. To evaluate its reliability and accuracy, the predicted thermally induced stress and failure temperature are compared with the fracture stress and fracture temperature obtained from thermal stress restrained specimen test. The findings indicate that this HMA fracture mechanics-based thermal cracking model has a great potential to reliably evaluate the performance of asphalt mixtures subjected to thermally induced damage. Engineering and Technology Teknik och teknologier
86	Análise dos efeitos da borracha moída de pneu e do resíduo de óleo de xisto sobre algumas propriedades mecânicas de misturas asfáticas densas / Analysis of the effects of crumb rubber and shale-oil residue on mechanical properties of asphalt mixtures Pilati, Fernanda 27 March 2008 (has links) No Brasil, desde o início da década de 1990, vêm sendo desenvolvidas pesquisas sobre aplicação do asfalto-borracha visando tanto a diminuição dos problemas ambientais gerados pelo descarte de pneus inservíveis, como a melhoria das características dos ligantes produzidos. Dentro desse contexto, esta pesquisa teve por objetivo avaliar o desempenho mecânico de oito misturas asfálticas do tipo concreto asfáltico usinado a quente, produzidas com asfaltos convencional e convencional modificado com borracha de pneu e resíduo de óleo de xisto. Quanto ao ligante, foram utilizados 8 tipos, a saber: CAP 30/45 (referência); dois ligantes empregando teores diferentes de borracha moída de pneu; outros dois com teores distintos de resíduo de óleo de xisto e, por fim, mais três com combinações de teores de borracha e de resíduo de óleo de xisto. Os corpos-de-prova empregados nos ensaios foram moldados em cinco teores diferentes de ligantes asfálticos (4,5; 5,0, 5,5; 6,0 e 6,5%). Conseqüentemente, foram realizados ensaios Marshall, resistência à tração, módulo de resiliência e umidade induzida. Com base nos resultados dos ensaios realizados observou-se que tanto a borracha quanto o óleo reduzem a resistência à tração e o módulo de resiliência das misturas, no entanto, na recuperação retardada, os efeitos da borracha e do óleo são antagônicos, diminuindo e aumentando, respectivamente. Ademais, quanto à suscetibilidade à ação da água, as misturas com adição de óleo apresentaram menor suscetibilidade que as misturas com adição de borracha. Além disso, foi observado que todas as misturas estudadas, exceto aquelas com altas concentrações de óleo e de borracha, atenderam os requisitos estabelecidos pelas especificações, para as propriedades analisadas. Todavia, em alguns casos, considerando os efeitos antagônicos do óleo e da borracha, algumas combinações entre ambos podem ser realizadas, com a finalidade de alcançar os níveis desejados para as propriedades do ligante asfalto-borracha e das misturas asfálticas. / In Brazil, since the beginning of the 90\'s, have been developed researches on the application of asphalt-rubber seeking the reduction of environmental problems created by the used tires, and the improvement of the characteristics of the produced binder. Taking this into account, the purpose of this research is to evaluate the mechanical performance of eight hot mix asphalt concretes, produced with conventional asphalt and modified asphalt with crumb rubber and shale-oil residue. Eight types of binders were used: CAP 30/45 (reference); two binders using different crumb rubber contents, two with different shale-oil residue contents, and finally three more with the combination of crumb rubber and shale-oil residue contents. The specimens used in the laboratorial tests were compacted in five different binders contents (4.5; 5.0, 5.5; 6.0 e 6.5%). Hence, the tests performed are: Marshall test, indirect tension, resilient modulus and moisture induced. The results showed that the rubber and the shale oil reduce the indirect tension and resilience module of the mixtures, however, on the delayed recover, the effects of the rubber and of the shale oil are opposed, decreasing and increasing it, respectively. Moreover, for the moisture susceptibility, the mixtures with shale-oil residue exhibited less susceptibility to water than those with crumb rubber. Furthermore, all the studied mixtures, except those with high shale-oil residue and rubber concentrations, they got to attend the established requirements for the specifications, for the analyzed properties. Although, in some cases, considering the opposed effects of the shale oil and of the crumb rubber, some combinations between both can be accomplished, with the purpose of reach the levels wanted for the properties of the asphaltrubber binder and the asphalt mixtures. Also regression models were elaborated as for the analyzed properties. The results obtained of modeling were satisfactory. Asfalto-borracha Crumb-rubber Experimentos com misturas Experiments with mixtures Hot mix asphalt Mechanical properties Misturas asfálticas densas Processo úmido Propriedades mecânicas Resíduo de óleo de xisto Shale-oil residue Wet process
87	Estudo laboratorial de misturas asfálticas a quente utilizadas em Goiás / Laboratorial study of hot mix asphalt used in middle west region of Brazil Prudente, Carolina Queiroz Arantes 28 August 2015 (has links) Submitted by Marlene Santos (marlene.bc.ufg@gmail.com) on 2016-03-02T21:02:06Z No. of bitstreams: 2 Dissertação - Carolina Queiroz Arantes Prudente - 2015.pdf: 2676423 bytes, checksum: 95fa022b3853b805c569eb33d3d481e4 (MD5) license_rdf: 19874 bytes, checksum: 38cb62ef53e6f513db2fb7e337df6485 (MD5) / Approved for entry into archive by Luciana Ferreira (lucgeral@gmail.com) on 2016-03-03T12:08:14Z (GMT) No. of bitstreams: 2 Dissertação - Carolina Queiroz Arantes Prudente - 2015.pdf: 2676423 bytes, checksum: 95fa022b3853b805c569eb33d3d481e4 (MD5) license_rdf: 19874 bytes, checksum: 38cb62ef53e6f513db2fb7e337df6485 (MD5) / Made available in DSpace on 2016-03-03T12:08:14Z (GMT). No. of bitstreams: 2 Dissertação - Carolina Queiroz Arantes Prudente - 2015.pdf: 2676423 bytes, checksum: 95fa022b3853b805c569eb33d3d481e4 (MD5) license_rdf: 19874 bytes, checksum: 38cb62ef53e6f513db2fb7e337df6485 (MD5) Previous issue date: 2015-08-28 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Flexible or asphalt pavements compose the Brazilian highway network, which have to promote security on traffic on the highways, to support the effects of changes in climate and to resist the traffic of vehicles. By this reasons, the structure of the pavement is particularly important and must be constituted by layers, which can distribute the loads into the structure, reducing the vertical load produced by the action of traffic and, consequently, providing protection to the subgrade. In the middle western Brazil, in the state of Goiás, there is not advanced studies on asphalt mixtures used in highways and in urban pavements, and there is not a technical scientific proofing that the local aggregates available in the region, is the best option considering the local conditions. Forward better conditions of infrastructure, it is proposed to develop more efficient asphalt mixtures for pavements, by submitting the mixtures through analysis of mechanical strength and performance test, analyzing if the most used asphalts mixtures are satisfactory or not. The hot asphalt mixture are composed by aggregates and asphalt binders that are design in order to attend the parameters set in the projects according to demand and traffic types. In this research, it was proposed the study of six asphalt mixture design with different types of asphalt binders with the same aggregates origin in a different grain size range (Bands B and C). The binders used in this study are the conventional cement asphalt in the region, CAP 30/45 e 50/70 (Brazilian penetration grade), with low and medium penetration, respectively, and the polymer modified asphalt (AMP). The CAP 50/70 is the most used conventional binder in the region, followed by CAP 30/45. Tha AMP binder is not often used. The characterization tests of the materials that composed the mixture are presented and their selection and characterization attended the standardized procedures and requirements by the brazilian department responsible for highway structures (DNIT). In a second stage, the design tests were performed, combining aggregates and binders in different rates, by the Marshall Mix Design Method using manual compression, until the great design was obtained The laboratory tests were realized with this great design to analyze the mass loss and obtain its mechanical properties, given by the tensile strength (RT). Performance tests were realized to obtain its resilient modulus (MR) and, using wheel tracking test, to obtain the permanent deformation (DP). The results showed that the common hot mixture asphalt used in the region (range C and CAP 50/70), is not a good option, because its performance is not satisfactory. Therefore, the range to be used, and the binder, must be analyzed for each traffic level. It is also recommended to evaluate the Marshall methodology for design mixtures, considering mainly the compression way and the determination of the maximum densities. / A malha rodoviária brasileira é composta, principalmente, por pavimentos do tipo flexível ou asfáltico, que devem, para promover a segurança ao tráfego nas rodovias, suportar os efeitos das mudanças de clima e resistir ao fluxo de veículos. Para isso, a estrutura do pavimento é particularmente importante e deve ser constituída por camadas que distribuam as cargas a que estão submetidas, minimizando os esforços verticais produzidos pela ação do tráfego e, consequentemente, oferecendo proteção ao subleito. Em busca de melhores condições de infraestrutura no estado de Goiás, propôs-se avaliar se as misturas asfálticas mais utilizadas na região são consideradas satisfatórias ou não, visto que inexistem estudos desenvolvidos sobre o assunto. As misturas asfálticas a quente são compostas de agregados e ligantes, que são dosados de forma a atender os parâmetros determinados nos projetos de acordo com a demanda e tipos de tráfego. Nesta pesquisa, foi proposto o estudo da dosagem de seis projetos de misturas, com diferentes tipos de ligantes asfálticos para agregados de mesma origem nas faixas granulométricas mais utilizadas na região (Faixas B e C). Foram utilizados ligantes convencionais CAP 30/45 e 50/70, com baixa e média penetração, respectivamente, e asfalto modificado com polímero (AMP). Dos ligantes convencionais, o CAP 50/70 é o mais utilizado na região, seguido do CAP 30/45, já o AMP ainda não é frequentemente utilizado. Foram realizados ensaios de caracterização dos materiais que compõem as misturas, que seguiram os procedimentos e requisitos normatizados pelo Departamento Nacional de Infraestrutura de Transportes (DNIT). Em uma segunda etapa, foram realizados ensaios de dosagem, combinando agregados e ligantes em diferentes taxas até que, por meio da metodologia Marshall com compactação manual, fosse obtida a dosagem considerada ótima para cada mistura estudada. Com essas dosagens, foram realizados ensaios em laboratório, para análise de desgaste, de desempenho das misturas e de suas propriedades mecânicas, por meio da determinação da resistência à tração por compressão diametral, do módulo de resiliência e da deformação permanente. Os resultados obtidos demonstraram que a mistura asfáltica mais comum de ser utilizada como camada de rolamento na região (Faixa C e CAP 50/70) não apresenta comportamento satisfatório. Dessa forma, a faixa granulométrica a ser utilizada deve ser repensada, bem como o tipo de ligante a ser utilizado para cada nível de tráfego. Recomenda-se, também, a reavaliação da utilização da metodologia Marshall para dosagem das misturas, principalmente na questão da forma de compactação e na determinação das densidades máximas. Misturas asfálticas a quente Dosagem marshall Propriedades mecânicas Módulo de resiliência Deformação permanente Ensaios de desempenho Hot mix asphalt Marshall mixture design Mechanical properties Resilient modulus Permanent deformation Performance tests ENGENHARIA CIVIL::GEOTECNICA
88	Análise dos efeitos da borracha moída de pneu e do resíduo de óleo de xisto sobre algumas propriedades mecânicas de misturas asfáticas densas / Analysis of the effects of crumb rubber and shale-oil residue on mechanical properties of asphalt mixtures Fernanda Pilati 27 March 2008 (has links) No Brasil, desde o início da década de 1990, vêm sendo desenvolvidas pesquisas sobre aplicação do asfalto-borracha visando tanto a diminuição dos problemas ambientais gerados pelo descarte de pneus inservíveis, como a melhoria das características dos ligantes produzidos. Dentro desse contexto, esta pesquisa teve por objetivo avaliar o desempenho mecânico de oito misturas asfálticas do tipo concreto asfáltico usinado a quente, produzidas com asfaltos convencional e convencional modificado com borracha de pneu e resíduo de óleo de xisto. Quanto ao ligante, foram utilizados 8 tipos, a saber: CAP 30/45 (referência); dois ligantes empregando teores diferentes de borracha moída de pneu; outros dois com teores distintos de resíduo de óleo de xisto e, por fim, mais três com combinações de teores de borracha e de resíduo de óleo de xisto. Os corpos-de-prova empregados nos ensaios foram moldados em cinco teores diferentes de ligantes asfálticos (4,5; 5,0, 5,5; 6,0 e 6,5%). Conseqüentemente, foram realizados ensaios Marshall, resistência à tração, módulo de resiliência e umidade induzida. Com base nos resultados dos ensaios realizados observou-se que tanto a borracha quanto o óleo reduzem a resistência à tração e o módulo de resiliência das misturas, no entanto, na recuperação retardada, os efeitos da borracha e do óleo são antagônicos, diminuindo e aumentando, respectivamente. Ademais, quanto à suscetibilidade à ação da água, as misturas com adição de óleo apresentaram menor suscetibilidade que as misturas com adição de borracha. Além disso, foi observado que todas as misturas estudadas, exceto aquelas com altas concentrações de óleo e de borracha, atenderam os requisitos estabelecidos pelas especificações, para as propriedades analisadas. Todavia, em alguns casos, considerando os efeitos antagônicos do óleo e da borracha, algumas combinações entre ambos podem ser realizadas, com a finalidade de alcançar os níveis desejados para as propriedades do ligante asfalto-borracha e das misturas asfálticas. / In Brazil, since the beginning of the 90\'s, have been developed researches on the application of asphalt-rubber seeking the reduction of environmental problems created by the used tires, and the improvement of the characteristics of the produced binder. Taking this into account, the purpose of this research is to evaluate the mechanical performance of eight hot mix asphalt concretes, produced with conventional asphalt and modified asphalt with crumb rubber and shale-oil residue. Eight types of binders were used: CAP 30/45 (reference); two binders using different crumb rubber contents, two with different shale-oil residue contents, and finally three more with the combination of crumb rubber and shale-oil residue contents. The specimens used in the laboratorial tests were compacted in five different binders contents (4.5; 5.0, 5.5; 6.0 e 6.5%). Hence, the tests performed are: Marshall test, indirect tension, resilient modulus and moisture induced. The results showed that the rubber and the shale oil reduce the indirect tension and resilience module of the mixtures, however, on the delayed recover, the effects of the rubber and of the shale oil are opposed, decreasing and increasing it, respectively. Moreover, for the moisture susceptibility, the mixtures with shale-oil residue exhibited less susceptibility to water than those with crumb rubber. Furthermore, all the studied mixtures, except those with high shale-oil residue and rubber concentrations, they got to attend the established requirements for the specifications, for the analyzed properties. Although, in some cases, considering the opposed effects of the shale oil and of the crumb rubber, some combinations between both can be accomplished, with the purpose of reach the levels wanted for the properties of the asphaltrubber binder and the asphalt mixtures. Also regression models were elaborated as for the analyzed properties. The results obtained of modeling were satisfactory. Asfalto-borracha Experimentos com misturas Misturas asfálticas densas Processo úmido Propriedades mecânicas Resíduo de óleo de xisto Crumb-rubber Experiments with mixtures Hot mix asphalt Mechanical properties Shale-oil residue Wet process
89	Performance Evaluation of Foamed Warm Mix Asphalt Produced by Water Injection Ali, Ayman W. 12 August 2013 (has links) No description available. Civil Engineering
90	Využití pěnoasfaltu v asfaltových směsích / Usage of foam bitumens in asphalt mixtures Venclíková, Michaela January 2018 (has links) In this diploma thesis there are described the issues use of foamed bitumen as binder in asphalt mixtures. The thesis is divided into two parts, theoretical and practical. The aim of theoretical part was to elaborate an overview of technologies, which allow to reduce the temperature during the production and laying of asphalt mixtures. The aim of the practical part was to compare the selected empirical and functional parameters of two types of asphalt mixtures produced in two variants, with hot bitumen and foamed bitumen. Attention was paid mainly to stiffness and low temperature parameters.

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