[KSCI] Korea Science Citation Index Service

Study on Mechanical Properties Modification of Styrene Butadiene Rubber Composites Filling with Graphene and Molybdenum Disulfide

Xu, Li Xiang (School of Energy, Materials, Chemical Engineering, Korea University of Technology and Education)
Sohn, Mi Hyun (School of Energy, Materials, Chemical Engineering, Korea University of Technology and Education)
Kim, Yu Soo (School of Energy, Materials, Chemical Engineering, Korea University of Technology and Education)
Jeong, Ye Rin (School of Energy, Materials, Chemical Engineering, Korea University of Technology and Education)
Cho, Ur Ryong (School of Energy, Materials, Chemical Engineering, Korea University of Technology and Education)

Publication Information

Journal of the Semiconductor & Display Technology / v.18, no.3, 2019 , pp. 52-59 More about this Journal

Abstract

Styrene-butadiene rubber (SBR) composites, incorporated with graphene, molybdenum disulfide and their hybrid in different filling ratio, were fabricated by a two roll-mill. The dispersion states of all the samples' matrix were employed by carbon black dispersion tester. The curing properties of the pre-vulcanized rubber composites were investigated, after molding by heating press machine, the tensile strength, storage modulus, friction coefficient, the swelling property had also been tested according to ASTM. The composite G1M10 (filling with 1 phr graphene and 10 phr molybdenum) showed the best mechanical properties and viscoelastic properties in this research with a better filler dispersion state and more compact matrix structure.

Keywords

SBR; Graphene; Molybdenum Disulfide; Composite;

Citations & Related Records

Times Cited By KSCI : 6 (Citation Analysis)

Reference
Cited By KSCI

1	Tang, Z., Zhang, C., Wei, Q., Weng, P., Guo, B., "Remarkably improving performance of carbon black-filled rubber composites by incorporating $MoS_2$ nano platelets," Compos. Sci. Technol., 132, pp. 93-100, (2016). DOI
2	Min. S., Lu, G., "Sites for high efficient photocatalytic hydrogen evolution on a limited-layered MoS2 cocatalyst confined on graphene sheets-the role of graphene", J. Phys. Chem. C., 116(48), pp. 25415-25424, (2012). DOI
3	Tsai, C.Y., Lin, S.Y., Tsai, H.C., "Butyl rubber nanocomposites with monolayer $MoS_2$ additives: structural characteristics, enhanced mechanical, and gas barrier properties", Polymers, 10(3), pp. 238-251, (2018). DOI
4	Williams, C.K., Hillmyer, M.A., "Polymers from renewable resources: a perspective for a special issue of polymer reviews," Polym. Rev., 48(1), pp. 1-10, (2008). DOI
5	Lee, Y.J., Lee, S.B., Jung, J.Y., Lee, D.H., and Cho, U. R., "A Study on Composites of Ethylene-Vinyl Acetate Copolymer and Ethylene-Propylene-Diene Rubber with Aluminum Hydroxide as a Fire Retardant," Elastomers and Composites, 51(2), pp. 93-98, (2016). DOI
6	Pfister, Daniel P., Ying Xia, Richard C. L., "Recent advances in vegetable oil‐based polyurethanes", ChemSusChem, 4(6), pp. 703-717, (2011). DOI
7	Sahoo, S., Misra, M., Mohanty, A.K., "Enhanced properties of lignin-based biodegradable polymer composites using injection moulding process", COMPOS. PART A-APPL. S., 42(11), pp. 1710-1718, (2011). DOI
8	Lee, D.H., Lee, K.H., Cho, U.R., "Property Comparison of Bio-Polyurethane and Petroleum based Polyurethane," J. SEMICONDUCT. DISPLAY. TECH., 17(2), pp. 47-52, (2018).
9	Jang, S.H., Li, X.X., Cho, U.R., "A Study on Graphene Oxide and Carboxylated Styrene-Butadiene Rubber (XSBR) Nanocomposites," J. Semiconduct. Display. Tech., 16(1), pp. 52-58, (2017).
10	Chung, Y.J., "Combustive Properties of Low Density Polyethylene and Ethylene Vinyl Acetate Composites Including Magnesium Hydroxide," Fire Science and Engineering, 25(5), pp. 69-75, (2011).
11	Fritzen, F., Bohlke, T., "Reduced basis homogenization of viscoelastic composites", Compos. Sci. Technol., 76, pp. 84-91, (2013). DOI
12	Lee, M., Yu. D., Kim, Y., Lee, S., Kim, J.H., Lee, Y.C., "Flame Retardancy and Physical Properties of Ethylene Vinyl Acetate/Aluminum Trihydroxide Composites," Polymer (Korea), 39(3), pp. 433-440, (2015). DOI
13	Li, X.X., Lee, S.B., Cho, U.R., "Study on Manufacture and Properties of Polymer Compounds for Cable Sheath," J. Semiconduct. Display. Tech., 18(1), pp. 1-6, (2019).
14	Li, X.X., Lee, S.B., Cho, U.R., "Study on Property Change with a Fire Retardant Content in the Manufacture of Polymer Composites for Cable Sheath," Elastomers and Composites, 54(2), pp. 118-122, (2019). DOI
15	Chen, X., Li, X.X., Cho, U.R., "Preparation of Hydroxyethyl Cellulose-Bamboo Charcoal (HxBy) Hybrid and Its Application to Reinforcement of Natural Rubber," Polymer (Korea), 43(3), pp. 351-358, (2019). DOI
16	Li, X.X., Jeong, S.Y., Choi, E.J., Cho, U.R., "Study on Properties of Epoxidized Natural Rubber/Solution Styrene Butadiene Rubber Blend with Silica and Carbon Black in Different Filling Ratio," Polymer (Korea), 43(2), pp. 321-326, (2019). DOI
17	Lee, D.H., Li, X.X., Cho, U.R., "A Study on Properties of SSBR/NdBR Rubber Composites Reinforced by Silica", Elastomers and Composites, 53(4), pp. 202-206, (2019). DOI
18	Kuilla, T., Bhadra, S., Yao, D., Kim, N.H., Bose, S., Lee, J.H., "Recent advances in graphene based polymer composites," Prog. Polym. Sci., 35(11), pp. 1350-1375, (2010). DOI
19	Chen, X., Li, X.X., Cho, U.R., "Study on Improvement of Properties for Epoxidized Natural Rubber by Addition of Starch and Molybdenum Disulfide," Polymer (Korea), 42(6), pp. 1085-1090, (2018). DOI
20	Yang, L.Y., Yu, T.T., Zheng, L., Liao, K., "Synergistic effect of hybrid carbon nantube-graphene oxide as a nanofiller in enhancing the mechanical properties of PVA composites," J. Mater. Chem., 21(29), pp. 10844-10851, (2011). DOI
21	Singh, V., Joung, D., Zhai, L., Das, S., Khondaker, S.I., Seal, S., "Graphene based materials: past, present and future," Prog. Mater. Sci., 56(8), pp. 1178-1271, (2011). DOI
22	Tang, Z., Zhang, L., Feng, W., Guo, B., Liu, F., Jia, D., "Rational design of graphene surface chemistry for high-performance rubber/graphene composites," Macromolecules, 47(24), pp. 8663-8673, (2014). DOI
23	Zhou, G., Wang, D. W., Yin, L., Li, C. N., Li, F. Cheng, H.M., "Oxygen bridges between NiO nanosheets and graphene for improvement of lithium storage," ACS nano, 6(4), pp. 3214-3223, (2012). DOI
24	Hao, X., Jin, Z., Yang, H., Lu, G., Bi, Y., "Peculiar synergetic effect of $MoS_2$ quantum dots and graphene on metal-organic frameworks for photocatalytic hydrogen evolution," Appl. Catal. B-Environ., 210, pp. 45-56, (2017). DOI