Effect of Crosslink Density on Cut and Chip Resistance of 100% SBR Based Tire Tread Compound

Kasi, Elangovan; Josephraj, Francis Xavier; Murugesan, Arun Kumar; Pandian, Balu

Elangovan Kasi, Francis Xavier Josephraj, Arun Kumar Murugesan, Balu Pandian

Effect of Crosslink Density on Cut and Chip Resistance of 100% SBR Based Tire Tread Compound

Abstract:
The effect of Crosslink density on Cut and Chip resistance was affected on a typical 100 percent styrene-butadiene rubber (SBR)-based tire tread compound. In order to successfully develop products for tires used in off-road or poor roads and other demanding rubber applications, it is important to understand the C&C effect in rubber. Crosslink density varied by varying the sulphur to the accelerator ratio and also by changing the process aids. Basic polymer, filler and other ingredients such as activators and anti-degradants have remained unchanged. In the first setup, the sulphur was kept constant and the accelerator varied and the reverse was done in the second setup. It was made to achieve different crosslink density by changing the oil dosage and adding different resins. An attempt has been made to correlate Cut and Chip resistance to other physical properties. All these tests have been identified and optimized by the traditional tire tread compound.

Keywords:
Cut and Chip resistance; crosslink density; off-the road; tire tread; cure system

Issue: 2021 Volume 58, Issue 1

Pages: 34-46

Publication date: 2021/4/5

https://doi.org/10.37358/MP.21.1.5443

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This article is published under the Creative Commons Attribution 4.0 International License

Citation Styles

Cite this article as:
KASI, E., JOSEPHRAJ, F.X., MURUGESAN, A.K., PANDIAN, B., Effect of Crosslink Density on Cut and Chip Resistance of 100% SBR Based Tire Tread Compound, Mater. Plast., 58(1), 2021, 34-46. https://doi.org/10.37358/MP.21.1.5443

Vancouver
Kasi E, Josephraj FX, Murugesan AK, Pandian B. Effect of Crosslink Density on Cut and Chip Resistance of 100% SBR Based Tire Tread Compound. Mater. Plast.[internet]. 2021 Jan;58(1):34-46. Available from: https://doi.org/10.37358/MP.21.1.5443

APA 6th edition
Kasi, E., Josephraj, F.X., Murugesan, A.K. & Pandian, B. (2021). Effect of Crosslink Density on Cut and Chip Resistance of 100% SBR Based Tire Tread Compound. Materiale Plastice, 58(1), 34-46. https://doi.org/10.37358/MP.21.1.5443

Harvard
Kasi, E., Josephraj, F.X., Murugesan, A.K., Pandian, B. (2021). 'Effect of Crosslink Density on Cut and Chip Resistance of 100% SBR Based Tire Tread Compound', Materiale Plastice, 58(1), pp. 34-46. https://doi.org/10.37358/MP.21.1.5443

IEEE
E. Kasi, F.X. Josephraj, A.K. Murugesan, B. Pandian, "Effect of Crosslink Density on Cut and Chip Resistance of 100% SBR Based Tire Tread Compound". Materiale Plastice, vol. 58, no. 1, pp. 34-46, 2021. [online]. https://doi.org/10.37358/MP.21.1.5443

Text
Elangovan Kasi, Francis Xavier Josephraj, Arun Kumar Murugesan, Balu Pandian,
Effect of Crosslink Density on Cut and Chip Resistance of 100% SBR Based Tire Tread Compound,
Materiale Plastice,
Volume 58, Issue 1,
2021,
Pages 34-46,
ISSN 2668-8220,
https://doi.org/10.37358/MP.21.1.5443.
(https://revmaterialeplastice.ro/Articles.asp?ID=5443)
Keywords: Cut and Chip resistance; crosslink density; off-the road; tire tread; cure system

RIS
TY - JOUR
T1 - Effect of Crosslink Density on Cut and Chip Resistance of 100% SBR Based Tire Tread Compound
A1 - Kasi, Elangovan
A2 - Josephraj, Francis Xavier
A3 - Murugesan, Arun Kumar
A4 - Pandian, Balu
JF - Materiale Plastice
JO - Mater. Plast.
PB - Materiale Plastice SRL
SN - 2668-8220
Y1 - 2021
VL - 58
IS - 1
SP - 34
EP - 46
UR - https://doi.org/10.37358/MP.21.1.5443
KW - Cut and Chip resistance
KW - crosslink density
KW - off-the road
KW - tire tread
KW - cure system
ER -

BibTex
@article{MatPlast2021P34,
author = {Kasi Elangovan and Josephraj Francis Xavier and Murugesan Arun Kumar and Pandian Balu},
title = {Effect of Crosslink Density on Cut and Chip Resistance of 100% SBR Based Tire Tread Compound},
journal = {Materiale Plastice},
volume = {58},
number = {1},
pages = {34-46},
year = {2021},
issn = {2668-8220},
doi = {https://doi.org/10.37358/MP.21.1.5443},
url = {https://revmaterialeplastice.ro/Articles.asp?ID=5443}
}

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