Evaluation of the Effect of Mixing Conditions of Micro-Silica Modified Asphalt Binder

The aim of this study was to improve an effective approach to the processing of asphalt binder modified with micro-silica particles. Various mixer type (mechanical and high shear), revaluation rates (2000, 4000 and 6000 rpm), and two mixing time (30 and 60 minutes), were adopted. Three micro-silica...

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Published in	IOP conference series. Materials Science and Engineering Vol. 518; no. 2; pp. 22048 - 22061
Main Authors	Zghair, Hussein H, Joni, Hasan H, Hassan, Maan S
Format	Journal Article
Language	English
Published	Bristol IOP Publishing 01.05.2019
Subjects	Asphalt Binders (materials) Bituminous cements Highway construction Hot weather Hot weather construction Pavement construction Penetration Physical properties Sensitivity Silica fume Silicon dioxide Softening Temperature Viscosity Weather
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Abstract	The aim of this study was to improve an effective approach to the processing of asphalt binder modified with micro-silica particles. Various mixer type (mechanical and high shear), revaluation rates (2000, 4000 and 6000 rpm), and two mixing time (30 and 60 minutes), were adopted. Three micro-silica contents 2%, 4%, and 6% by weight of asphalt cement were added. The asphalt binder was prepared at temperature of 140 °C. Comparisons were made to evaluate the properties of the modified asphalt binder such as penetration grade, softening point temperature, temperature sensitivity, rotational viscosity and ductility. Results of this study showed that the use of micro silica as a modifier was helpful in enhancing the physicals properties of the asphalt binder. In general, it was found that the penetration value decreased and softening point temperature, as well as the viscosity value, increased and the temperature sensitivity was improved. Furthermore, high shear mixing was more practical particularly to achieve a good dispersion of micro silica particles into asphalt binder and obtained a homogenous composite binder. Finally, the tested specimens showed 6% of micro silica was adequate to improve the physical properties of asphalt and become more suitable for constructing the highway pavements in hot weather conditions.
AbstractList	Abstract The aim of this study was to improve an effective approach to the processing of asphalt binder modified with micro-silica particles. Various mixer type (mechanical and high shear), revaluation rates (2000, 4000 and 6000 rpm), and two mixing time (30 and 60 minutes), were adopted. Three micro-silica contents 2%, 4%, and 6% by weight of asphalt cement were added. The asphalt binder was prepared at temperature of 140 °C. Comparisons were made to evaluate the properties of the modified asphalt binder such as penetration grade, softening point temperature, temperature sensitivity, rotational viscosity and ductility. Results of this study showed that the use of micro silica as a modifier was helpful in enhancing the physicals properties of the asphalt binder. In general, it was found that the penetration value decreased and softening point temperature, as well as the viscosity value, increased and the temperature sensitivity was improved. Furthermore, high shear mixing was more practical particularly to achieve a good dispersion of micro silica particles into asphalt binder and obtained a homogenous composite binder. Finally, the tested specimens showed 6% of micro silica was adequate to improve the physical properties of asphalt and become more suitable for constructing the highway pavements in hot weather conditions. The aim of this study was to improve an effective approach to the processing of asphalt binder modified with micro-silica particles. Various mixer type (mechanical and high shear), revaluation rates (2000, 4000 and 6000 rpm), and two mixing time (30 and 60 minutes), were adopted. Three micro-silica contents 2%, 4%, and 6% by weight of asphalt cement were added. The asphalt binder was prepared at temperature of 140 °C. Comparisons were made to evaluate the properties of the modified asphalt binder such as penetration grade, softening point temperature, temperature sensitivity, rotational viscosity and ductility. Results of this study showed that the use of micro silica as a modifier was helpful in enhancing the physicals properties of the asphalt binder. In general, it was found that the penetration value decreased and softening point temperature, as well as the viscosity value, increased and the temperature sensitivity was improved. Furthermore, high shear mixing was more practical particularly to achieve a good dispersion of micro silica particles into asphalt binder and obtained a homogenous composite binder. Finally, the tested specimens showed 6% of micro silica was adequate to improve the physical properties of asphalt and become more suitable for constructing the highway pavements in hot weather conditions.
Author	Zghair, Hussein H Hassan, Maan S Joni, Hasan H
Author_xml	– sequence: 1 givenname: Hussein H surname: Zghair fullname: Zghair, Hussein H email: 11539@uotechnology.edu.iq organization: Civil Engineering Department, University of Technology, 10066 , Iraq – sequence: 2 givenname: Hasan H surname: Joni fullname: Joni, Hasan H organization: Civil Engineering Department, University of Technology, 10066 , Iraq – sequence: 3 givenname: Maan S surname: Hassan fullname: Hassan, Maan S organization: Civil Engineering Department, University of Technology, 10066 , Iraq
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Snippet	The aim of this study was to improve an effective approach to the processing of asphalt binder modified with micro-silica particles. Various mixer type... Abstract The aim of this study was to improve an effective approach to the processing of asphalt binder modified with micro-silica particles. Various mixer...
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SubjectTerms	Asphalt Binders (materials) Bituminous cements Highway construction Hot weather Hot weather construction Pavement construction Penetration Physical properties Sensitivity Silica fume Silicon dioxide Softening Temperature Viscosity Weather
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Title	Evaluation of the Effect of Mixing Conditions of Micro-Silica Modified Asphalt Binder
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