[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.7473/EC.2019.54.4.335

Emulsification of Asphalt Modified with Styrene Butadiene Rubber (SBR) and Styrene Butadiene Styrene (SBS); 1) Phase Stability Behavior and 2) Physical Properties

Lee, Eun-Kyoung (Department of Pharmaceutical & Biomedical Engineering, Cheongju University)

Publication Information

Elastomers and Composites / v.54, no.4, 2019 , pp. 335-344 More about this Journal

Abstract

In this work, styrene butadiene rubber (SBR) and styrene butadiene styrene (SBS) were used to modify asphalt, resulting in SBR- and SBS-modified asphalt, respectively. The two modified asphalts were emulsified with a nonionic emulsifier (Span 60) and cationic emulsifiers (ID, DDA) and their phase stabilization was investigated via particle size, Zeta potential, and flow behavior analysis. With increasing amount of the mixed emulsifier, the particle size decreased, leading to an increase in viscosity. The shear thinning behaviors and Zeta potential values ranging from 35-65 mV were determined and remained considerably stable. In addition, the adhesion strength and compression strength of the SBR-and SBS-modified asphalt emulsion were evaluated via surface free energy examination. The remarkable adhesion and compression strengths were estimated when 5 phr ID and 6 phr DDA were added to the emulsified asphalt modified with SBR and SBS. Therefore ID and DDA, the two cationic surfactants, played significant roles in improving the dispersion and interfacial adhesion strength, resulting in the improved adhesion and compression strength of the emulsified asphalts modified with SBR and SBS.

Keywords

phase stabilization; SBR-modified asphalt emulsion; SBS-modified asphalt emulsion; shear thinning; Surface free energy;

Citations & Related Records

Times Cited By KSCI : 2 (Citation Analysis)

Reference
Cited By KSCI

1	J. Lyklema, G. J. Fleer, J. M. Kleijn, F. A. M. Leermakers, W. Norde, and T. Van Vliet, "Fundamentals of Interface and Colloid Science", ed. by J. Lyklema, G. J. Fleer, J. M. Kleijn, F. A. M. Leermakers, W. Norde, and T. Van Vliet, 3rd, Ed. p. 73, Academic Press, New York, 2000.
2	Q. Wang, C. Hu, A. Zoghbi, J. Huang, and Q. Xia, "Oil-inoil-in-water pre-double emulsions stabilized by nonionic surfactants and silica particles: A new approach for topical application of rutin", Colloids and Surf. A, 522, 399 (2017). DOI
3	B. P. Binks, "Modern Aspects of Emulsion Science", ed by B. P. Binks, p. 101, The Royal Society of Chemistry, London, 1998.
4	H. Zhou, C. Zhu, T. Fu, Y. Ma, and H. Z. Li, "Dynamics and interfacial evolution for bubble breakup in shear-thinning non-Newtonian fluid in microfluidic T-junction", Chemical Eng. Sci., 208, 1 (2019).
5	H. A. Barnes, "Rheology of emulsions-review", Colloids Surfaces A: Physicochem. Eng. as Aspects, 91, 89 (1994). DOI
6	E. J. Verwey and J. Overbeek, "Theory of the Stability of Lyotropic Colloids", ed by E. J. Verwey and J. Overbeek, p. 88, Elsevier, Amsterdam, 1948.
7	K. Buszello, S. Harnisch, R. H. Muller, and B. W. Muller, "The influence of alkali fatty acids on the properties and the stability of paraenteral O/W emulsions modified with solutol HS $15^{R}$ ", European J. Pharmace. and Biopharm., 49, 146 (2000).
8	Y. H. Kim, "The effect of zeta-potential on the stabilization of silver nanoparticle colloid prepared by alcohol reduction method with PVP", J. Korean Ind. Eng. Chem., 14, 491 (2003).
9	D. B. Genovese and J. E. Lozano, "The effect of hydrocolloids on the stability and viscosity of cloudy apple juices", Food Hydrocolloids, 13, 1 (2001). DOI
10	J. Lei, Y. Gao, Y. Ma, K. Zhao, and F. Du, "Improving the emulsion stability by regulation of dilational rheology properties", Colloids and Surfaces A: Physicochem. Eng. Aspects, 583, 20 (2019).
11	F. M. Fowkes, D. C. McCarthy, and M. A. Mostafa, "Contact angles and the equilibrium spreading pressures of liquids on hydrophobic solids", J. Colloid and Interface Sci., 78, 200 (1980). DOI
12	D. K. Owens and R. C. Wendt, "Estimation of the surface free energy of polymers", J. Appl. Polym. Sci., 13, 1741 (1969). DOI
13	S. Wu, "Polymer Interface and Adhesion", ed by S. Wu, p. 78, Marcel Dekker, New York, 1982.
14	E. S. Daniels and A. Klein, "Development of cohesive strength in polymer films from latices: effect of polymer chain interdiffusion and crosslinking Author links open overlay panel", Prog. Organic Coating, 19, 359 (1991). DOI
15	S. J. Park, M. K. Seo, and H. B. Shim, "Effect of fiber shapes on physical characteristics of non-circular carbon fibers-reinforced composites", Materials Sci. and Eng. A, 352, 34 (2003). DOI
16	Z. Yao, Y. Y. Heng, S. L. Mendez, A. Pegoretti, M. Xia, J. Tang, and W. Wu, "Surface free energy and mechanical performance of LDPE/CBF composites containing toxic-metal free filler", International J. of Adhesion and Adhesives, 77, 58 (2017). DOI
17	K. Takamura, "Polymer network formation in the pavement using SBR latex modified asphalt emulsions", Studies in Surface Sci. Cataly., 132, 271 (2001). DOI
18	P. Tzeng, C. R. Maupin, and J. C. Grunlan, "Influence of polymer interdiffusion and clay concentration on gas barrier of polyelectrolyte/clay nano brickwall quadlayer assemblies", J. Membrane Sci., 452, 46 (2014). DOI
19	E. N. Ezzat and A. H. Abed, "Enhancement rheological properties of asphalt binder modified with hybrid polymers according to superpave system", Materials Today: Proceedings, 29, 1 (2019). DOI
20	N. F. Ghaly, I. M. Ibrahim, and E. M. Noamy, "Tack coats for asphalt paving", Egyptian J. Petroleum, 23, 61 (2014). DOI
21	H. S. Kang and Y. K. Hong, "Effects of UV Initiator on Properties of Polymer-Modified Asphalt", Elastomers and Composites, 45, 217 (2010).
22	N. M. Wasiuddin, A. Marshall, N. E. Saltibus, A. Saber, and C. Abadie, "Use of sweep test for emulsion and hot asphalt chip seals: laboratory and field evaluation", J. Testing and Evalu., 41, 61 (2013).
23	J. Peng, D. Deng, Q. Yuan, Z. Liu, and L. Fang, "Study of the rheological behavior of fresh cement emulsified asphalt paste", Constru. and Building Mater., 66, 348 (2014). DOI
24	K. Shen, Z . H. Huang , J. Yang , G. Yang , W. Shen, and F. Kang, "The use of asphalt emulsions as a binder for the preparation of polycrystalline graphite", CARBON, 58, 239 (2013).
25	S. M. Yang and O. O. Park, "Fundamentals of Microstructure Fluid Flow", ed. by S. M. Yang and O. O. Park, p. 78, MinEum, Seoul, 1997.
26	X. Zhou, F. Wang, X. Yuan, M. Kuang, Y. Song, and C. Li, "Usage of slurry oil for the preparation of crumb-rubber-modified asphalt emulsions", Construct. and Building Mater., 76, 279 (2015). DOI
27	E. K. Lee, "Preparation and Characterization of Anionic Emulsified Asphalt with Enhanced Adhesion Properties", Elastomers and Composites, 50, 304 (2017). DOI
28	A. W. Adamson, "Physical Chemistry of Surfaces", ed. by A. W. Adamson, 5th Ed. p. 121, John Wiley, New York, 1990.
29	D. J. Shaw, "Introduction to Colloid and Surface Chemistry", ed by D. J. Shaw, 4th Ed. p. 123, Butterworth-Heinemann, Oxford, 1992.
30	R. A. Mercado, J. L. Salager, V. Sadtler, P. Marchal, and L. Choplin, "Breaking of a cationic amine oil-in-water emulsion by pH increasing: Rheological monitoring to modelize asphalt emulsion rupture", Colloids and Surfaces A: Physicochem. Eng. Spects, 458, 64 (2014).
31	T. Saito and R. Ruch, "Stabilization of Colloidal Dispersion by Polymer Adsorption", ed by T. Saito and R. Ruch, p. 97, Marcel Dekker, New York, 1982.
32	D. H. Napper, "Polymeric stabilization of colloidal dispersions", ed by D. H. Napper, p. 132, Academic Press, London, 1983.
33	A. D. Ward, R. H. Ottewill, and R. D. Hazlett, "An investigation into the stability of aqueous films separating hydrocarbon drops from quartz surfaces", J. Petroleum Sci. and Eng., 24, 213 (1999). DOI