Application of calix[4]arene macrocycle to improve green strength in rubber compounds
Subject Areas :fereshteh motiee 1 , saeed Taghvaei-Ganjali 2 , Henrik Margharian Pekachaki 3
1 - Assistant Prof. of Applied Chemistry, Chemistry Department, Islamic Azad University – Tehran North Branch, Tehran, Iran
2 - Professor of Organic Chemistry, Chemistry Department, Islamic Azad University – Tehran North Branch, Tehran, Iran.
3 - Ph.D student in Chemistry Department, Islamic Azad University – Tehran North Branch, Tehran, Iran.
Keywords: rubber, Calix[4]arene, Green-strength, Bead, Ply,
Abstract :
In this research, the reinforcing effect of calix[4]arene macrocycle on the green strength in the rubber matrix is investigated for the first time. The calixarene derivative is mixed into raw rubber compounds before the vulcanization process. The bead and ply rubber compounds used in the motorcycle tire are selected for the tests. Due to the rawness of the rubber compounds and the absence of crosslinks to measure the green strength, elongation at break values of the raw compounds were considered as the indicator. Calixarene molecules can connect; this connection is through H-bonding between two calixarene moiety. These molecules pair each other two by two and make colonies. Paired calix molecules act as a bridge between rubber chains. Therefore, they reinforce the compounds and behavior similar to composites could be seen. Consequently, when they hold the chains, the green strength of the compounds increases.
[1] Erman, B.; Mark, E.; Roland, M.C.; The Science and Technology of Rubber 12, 14-25, 2013.
[2] Sameni, S.; M.Sc. Dissertation, Tehran North Branch, Islamic Azad University, 1382.
[3] Gutsche, C.D., "Calixarenes: An Introduction (2)", The Royal Society of Chemistry, Germany. 2008.
[4] Gutsche, C.D.; Chemistry 12, 114-120, 2008.
[5] Li, H.; Journal of Applied Polymer Science 134(31), 45144-45152, 2017.
[6] Li, H.; Plastics, Rubber and Composites 46(6), 251-257, 2017.
[7] Mohamadi, H.; Russian Journal of Applied Chemistry 92(6), 809-816, 2019.
[8] Servati, Z; Journal of Porous Materials 25(5), 1463-1474, 2018.
[9] Subramaniam, K.; Heinrich, G.; Carbon Nanotubes Rubber Composites 12, 310-315, 2015.
[10] Pekachaki, H.M.; Rubber Chemistry and Technology 10, 118-125, 2017.
[11] ISO 9026, Raw rubber or unvulcanized compounds determination of green strength, 2007.
[12] Durairaj, R.B.; Rubber Science 26, 148-157, 2013.
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[1] Erman, B.; Mark, E.; Roland, M.C.; The Science and Technology of Rubber 12, 14-25, 2013.
[2] Sameni, S.; M.Sc. Dissertation, Tehran North Branch, Islamic Azad University, 1382.
[3] Gutsche, C.D., "Calixarenes: An Introduction (2)", The Royal Society of Chemistry, Germany. 2008.
[4] Gutsche, C.D.; Chemistry 12, 114-120, 2008.
[5] Li, H.; Journal of Applied Polymer Science 134(31), 45144-45152, 2017.
[6] Li, H.; Plastics, Rubber and Composites 46(6), 251-257, 2017.
[7] Mohamadi, H.; Russian Journal of Applied Chemistry 92(6), 809-816, 2019.
[8] Servati, Z; Journal of Porous Materials 25(5), 1463-1474, 2018.
[9] Subramaniam, K.; Heinrich, G.; Carbon Nanotubes Rubber Composites 12, 310-315, 2015.
[10] Pekachaki, H.M.; Rubber Chemistry and Technology 10, 118-125, 2017.
[11] ISO 9026, Raw rubber or unvulcanized compounds determination of green strength, 2007.
[12] Durairaj, R.B.; Rubber Science 26, 148-157, 2013.