Exploring the tribological impact of micaceous additives in copper‐free automobile brake friction composites

Sathyamoorthy, G.; Raghunathan, Vijay; Rangappa, Sanjay Mavinkere; Siengchin, Suchart; Singaravelu, D. Lenin

doi:10.1002/vnl.22142

Vinyl Additive Technology

2024

DOI: 10.1002/vnl.22142

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Exploring the tribological impact of micaceous additives in copper‐free automobile brake friction composites

G. Sathyamoorthy,

Vijay Raghunathan,

Sanjay Mavinkere Rangappa

et al.

Abstract: This study investigates the tribological impact of incorporating micaceous additives in copper‐free brake friction composites for automotive applications. Four brake pad formulations were created, each containing different amounts of muscovite and phlogopite, ranging from 0% to 10% by weight. A brake pad comparison was conducted by replacing mica with synthetic barites. The physical, thermal, mechanical, and chemical properties of the fabricated brake friction composite were examined. Tribological features wer… Show more

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2024

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Investigation on tribo‐properties of twaron pulp‐reinforced brake friction composites

Kılıç,

Güney

2024

Polymer Composites

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Determining the appropriate formulation in designing and developing brake friction materials is one of the most complex tasks. This study investigates the synergistic effect and optimization of twaron fiber on the fade and recovery performance of brake friction composites. For this purpose, a series of friction materials containing varying amounts of twaron between 1 and 9 wt% were developed, and their characterization and tribo evaluation were carried out. The tribo performance of the composites was evaluated in a Krauss‐type friction test machine in line with the ECE R90 procedure in terms of their fade and recovery behaviors. It was noted that the fade‐recovery friction response of composites was affected when fiber is added; that is, an increase in fiber content improved the fade performance, friction fluctuations decreased, and a higher recovery response was observed. The fade and average coefficient of friction were found to be the main determinants, while recovery was found to be the stabilizer. Analytical hierarchy process (AHP) was used to determine the priority of importance of criteria in the performance evaluation, and VIKOR (multi‐criteria optimization compromise solution) was used for ranking evaluation. The formulation with a concentration of twaron 7 wt% was found to have exhibited an optimal braking performance. The worn surfaces scanning electron microscope (SEM) study confirms the general friction and wear mechanisms of friction layers with fiber content.Highlights Development of twaron pulp‐reinforced eco‐friendly brake friction composites. Use of MCDM approach in the development of BFCs for braking applications. VIKOR optimization positioned 7 wt% twaron‐addition BFC as the optimal choice. It was observed that fiber amount is effective on the behaviors of composites.

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Investigation on tribo‐properties of twaron pulp‐reinforced brake friction composites

Kılıç,

Güney

2024

Polymer Composites

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show abstract

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Exploring the tribological impact of micaceous additives in copper‐free automobile brake friction composites

Cited by 1 publication

References 62 publications

Investigation on tribo‐properties of twaron pulp‐reinforced brake friction composites

Investigation on tribo‐properties of twaron pulp‐reinforced brake friction composites

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