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Efeitos da cal hidratada e do ácido polifosfórico nas propriedades mecânicas e suscetibilidade à umidade de misturas asfálticas densas / Effects of hydrated lime and polyphosforic acid in mechanical properties and moisture susceptibility in dense asphalt mixturesWilson Ricardo de Grande 06 June 2011 (has links)
Esta pesquisa teve por objetivo analisar os efeitos da cal hidratada e do ácido polifosfórico nas propriedades mecânicas e suscetibilidade à umidade de misturas asfálticas densas. O ligante utilizado foi o CAP 50/70, chamado de controle, modificado com 0,6 e 1,2% de PPA, e como aditivo a cal hidratada em concentrações de 1,5 e 3,0%, perfazendo nove combinações de misturas asfálticas. Foram moldados 108 corpos-de-prova, divididos em 4 e 7% de volume de vazios, sendo que os corpos-de-prova de 7% foram divididos em condicionados e não condicionados. Os ensaios realizados para análise das propriedades mecânicas foram o Módulo de Resiliência e a Resistência à Tração Indireta. Os resultados mostram que o aumento da concentração de ácido polifosfórico melhora a rigidez e a flexibilidade, e melhora a suscebilidade ao dano por umidade, assim como aumenta a resistência à tração; para a cal hidratada, com o aumento da sua concentração, ocorreu aumento da rigidez e da flexibilidade de maneira mais discreta, se comparado ao ácido polifosfórico, e proporciona a diminuição da resistência à tração: o teor que apresentou melhor suscetibilidade ao dano por umidade foi de 1,5% de cal hidratada. / This work aims to analyze the effects of hydrated lime and polyphosphoric acid on the mechanical properties and moisture susceptibility of dense asphalt mixtures. In nine combinations of asphalt mixtures, CAP 50/70, named control and modified with 0,6 and 1,2% of PPA, was employed as binder, and hydrated lime in concentrations of 1,5 and 3,0% was used as additive. 108 test specimens have been molded and divided into 4 and 7% of volume void, considering that 7% were separated into conditioned and non-conditioned. The Resilient Modulus and the Tensile Strength were the tests conducted for the analysis of mechanical properties. The results showed that the increase in polyphosphoric acid concentration improved stiffness and flexibility and increased the susceptibility to moisture damage, as well as the tensile strength. Also in the results, with the concentration increase of the hydrated lime, there was a smaller increase of stiffness and flexibility, and it provided a decrease of tensile strength, considering that the percentage of 1,5% of hydrated lime presented the best susceptibility to moisture damage.
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Influence of waxes on bitumen and asphalt concrete mixture performanceEdwards, Ylva January 2005 (has links)
This doctoral thesis consists of a literature review, presented in two papers, and another six papers describing experimental studies of the influence of different kinds of wax and polyphosporic acid on bitumen and asphalt concrete mixture properties. The literature review should give an extensive description of the field of knowledge concerning wax in bitumen. Effects of wax in crude oil, bitumen and asphalt concrete as well as test methods for studying these effects are described. Theories behind possible mechanisms are also discussed, and commercial wax as additive to bitumen for different purposes included. The experimental parts comprise laboratory studies involving totally five 160/220 penetration base bitumens from different sources, two isolated bitumen waxes, five commercial waxes and one polyphosphoric acid. Asphalt concrete slabs, containing base or modified bitumen were prepared and tested. Binder properties were evaluated using different types of laboratory equipment, such as dynamic shear rheometer (DSR), bending beam rheometer (BBR), differential scanning calorimeter (DSC), force ductilometer, as well as equipment for determining conventional parameters like penetration, softening point, viscosity, and Fraass breaking point. Fourier Transform Infrared (FTIR) spectroscopy and Thin Layer Chromatography (TLC-FID) were used for chemical characterization. The binders were aged by means of the rolling thin film oven test (RTFOT) and pressure ageing vessel (PAV) in combination. Asphalt concrete properties were evaluated at low temperatures using the tensile strain restrained specimen test (TSRST) and creep test at -25°C. Dynamic creep testing was performed at 40°C, as well as complex modulus tests between 0 and 20°C. Binder test results indicated that the magnitude and type of effect on bitumen rheology depend on the bitumen itself, type of crystallizing fraction in the bitumen and/or type and amount of additive used. Bitumen composition was found to be of decisive importance. Adding polyethylene wax or polyphosphoric acid, especially to a non-waxy 160/220 penetration grade bitumen, showed no or positive effects on the rheological behaviour at low temperatures (decrease in stiffness) as well as medium and high temperatures (increase in complex modulus and decrease in phase angle). However, the corresponding positive effects could not be shown in dynamic creep testing (at 40°C) of asphalt concrete mixtures containing these modified binders. Adding FT-paraffin decreased the physical hardening index for all bitumens. Also polyethylene wax and montan wax showed this effect for some bitumens. Slack wax showed a large increasing effect on physical hardening, and polyphosphoric acid none or a minor negative effect. No correlation between physical hardening index (PHI) and wax content by DSC was found in this study, involving both natural bitumen wax and commercial wax. Addition of the commercial waxes used showed no or marginally positive influence on bitumen ageing properties for the bitumens and test conditions used. Comparing asphalt mixture test results to the corresponding binder test results, the effects on asphalt mixtures from adding commercial wax or polyphosphoric acid were less evident. Significant binder physical hardening by BBR could not be confirmed by TSRST. / QC 20101006
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