Rice husk silica as a sustainable filler in the tire industry

Chundawat, Narendra Singh; Parmar, Bhavani Shanker; Deuri, Arup Saha; Vaidya, Dilip; Jadoun, Sapana; Zarrintaj, Payam; Barani, Mahmood; Chauhan, Narendra Pal Singh

Abstract

In this paper, we studied commercially available precipitated rice husk silica (RHS) with conventional precipitated silica, which has nearly the same surface area, and replaced part of the carbon black with RHS and conventional silica in a basic tread formulation. All formulations were mixed with the same amount of filler during the study. Silica was used at 15, 30 and 50 phr loading, and part of the carbon black was replaced by silica. Compound curing characteristics, physical properties, rebound resilience, heat generation, abrasion loss, dynamic properties and morphology were analyzed. The results indicated that RHS demonstrated compound properties comparable to those of conventional silica. As part of the carbon black was replaced with conventional silica, a slower cure rate, higher rebound resilience, lower heat generation, lower abrasion loss, and lower tan delta were observed with no significant change in physical properties, but some changes in physical properties were observed using one way ANOVA analysis. We found the same trend when replacing part of the carbon black with RHS, such as a slower cure rate, higher rebound resilience, lower heat generation, lower abrasion loss, and lower tan delta with no significant change in physical properties, but some changes in physical properties were observed using one way ANOVA. This sustainable material could be used to replace conventional silica in tire compounding, as well as to replace a portion of carbon black with RHS for improved heat build-up, rolling resistance, and abrasion loss. (C) 2022 The Authors. Published by Elsevier B.V. on behalf of King Saud University.

Más información

Título según WOS: Rice husk silica as a sustainable filler in the tire industry
Título de la Revista: ARABIAN JOURNAL OF CHEMISTRY
Volumen: 15
Número: 9
Editorial: Elsevier
Fecha de publicación: 2022
DOI:

10.1016/j.arabjc.2022.104086

Notas: ISI