Preparation and properties of rice husk ash silica filled natural rubber

Zhang, Guojie; Wang, Ge; Jiang, Yang; Wang, Shifeng; Zhang, Yong

doi:10.1002/pc.27789

Polymer Composites

2023

DOI: 10.1002/pc.27789

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Preparation and properties of rice husk ash silica filled natural rubber

Guojie Zhang,

Ge Wang,

Yang Jiang

et al.

Abstract: Rice husk ash silica obtained from the chemical purification of rice husk ash is a bio‐based silica. As a sustainable raw material, the bio‐based silica has attracted much attention in recent years. It can be used to replace traditional carbon black and silica in tire rubbers. Our experimental results show that the bio‐based silica can bring similar mechanical properties and higher wet grip to natural rubber in comparison with traditional silica. The wet mixing method is successfully used to disperse the bio‐b… Show more

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2024

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Alfalfa/Lucerne (Medicago sativa) as a Source of Functional Bioadditives for Elastomeric Natural Rubber Composites

Miedzianowska-Masłowska,

Masłowski,

Strzelec

2024

Polymers

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This study explores the impact of three bioadditives derived from Alfalfa—biomass, bio-ashes, and lyophilisates—on natural rubber composites, with a primary focus on the anti-aging properties of lyophilisates. Composite samples were prepared by incorporating these bioadditives into natural rubber and analyzed using various characterization techniques to evaluate mechanical, thermal, aging, and surface properties. The results highlight the promising anti-aging effects of lyophilisates, significantly enhancing the aging resistance of natural rubber. The aging factor was the closest to unity among all systems. Biomass and bio-ashes were also examined, offering insights into their influence on tensile strength, viscoelasticity, and surface wettability. The tensile strength values were almost 50% higher than those of the reference sample (8.5 MPa). The study provides a detailed understanding of the interactions between these bioadditives and natural rubber, showcasing their potential to enhance elastomer performance. These findings underscore the viability of Alfalfa-based bioadditives as sustainable options for improving rubber properties, with significant implications for industrial applications.

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Alfalfa/Lucerne (Medicago sativa) as a Source of Functional Bioadditives for Elastomeric Natural Rubber Composites

Miedzianowska-Masłowska,

Masłowski,

Strzelec

2024

Polymers

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show abstract

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Preparation and properties of rice husk ash silica filled natural rubber

Cited by 1 publication

References 54 publications

Alfalfa/Lucerne (Medicago sativa) as a Source of Functional Bioadditives for Elastomeric Natural Rubber Composites

Alfalfa/Lucerne (Medicago sativa) as a Source of Functional Bioadditives for Elastomeric Natural Rubber Composites

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