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Review
. 2022 Jul;29(34):51298-51317.
doi: 10.1007/s11356-022-20894-8. Epub 2022 May 25.

Investigating the potential of sustainable use of green silica in the green tire industry: a review

Behnaz Shoul  1 Yousef Marfavi  2 Banafsheh Sadeghi  1 Elaheh Kowsari  3 Peyman Sadeghi  4 Seeram Ramakrishna  5
Affiliations
Review

Investigating the potential of sustainable use of green silica in the green tire industry: a review

Behnaz Shoul et al. Environ Sci Pollut Res Int. 2022 Jul.

Abstract

Undoubtedly, with the increasing emission of greenhouse gases and non-biodegradable wastes as the consequence of over energy and material consumption, the demands for environmentally friendly products are of significant importance. Green tires, a superb alternative to traditional tires, could play a substantial part in environmental protection owing to lower toxic and harmful substances in their construction and their higher decomposition rate. Furthermore, manufacturing green tires using green silica as reinforcement has a high capacity to save energy and reduce carbon dioxide emissions, pollution, and raw material consumption. Nevertheless, their production costs are expensive in comparison with conventional tires. In this review article, by studying green tires, the improvement of silica-rubber mixing, as well as the production of green silica from agricultural wastes, were investigated. Not only does the consumption of agricultural wastes save resources considerably, but it also could eventually lead to the reduction of silica production expenses. The cost of producing green silica is about 50% lower than producing conventional silica, and since it weighs about 17% of green silica tires, it can reduce the cost of producing green rubber. Accordingly, we claim that green silica has provided acceptable properties of silica in tires. Apart from the technical aspect, environmental and economic challenges are also discussed, which can ultimately be seen as a promising prospect for the use of green silica in the green tire industry.

Keywords: Agricultural waste; Carbon footprint; Green silica; Green tire; Sustainability; Tire reinforcement.

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