Raffaele Gilardi scite author profile

Raffaele Gilardi

5Publications

73Citation Statements Received

13Citation Statements Given

How they've been cited

130

How they cite others

Affiliations

Fondazione GraphiTech, Imerys (Switzerland), Imerys (Germany)

Publications

Order By: Most citations

Copper Substitution and Noise Reduction in Brake Pads: Graphite Type Selection

Gilardi¹,

Alzati²,

Thiam³

et al. 2012

Materials

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Graphite is commonly used in brake pads. The use of graphite powder has the main goal of solid state lubrication and friction coefficient stabilization. In this article results on resin bonded brake pads with focus on noise performance and heat dissipation are presented. Experimental tests are based on model friction materials with a known formulation and a reduced number of components for a better identification of the role of the graphite type. Results clearly indicate that both noise performance and thermal conductivity are strongly affected by the type of graphite. Guidelines for the selection of graphite types for optimized friction materials are given.

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Carbon Black for Electrically Conductive Polymer Applications

Spahr¹,

Gilardi²,

Bonacchi³

2016

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Tribology of Graphite-Filled Polystyrene

Gilardi¹

2016

Lubricants

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Self-lubricating polymer compounds are currently used for a wide range of applications such as bearings, gears, and water meters. Under severe conditions such as high pressure, high velocity, and/or high temperatures, the material fails (PV limit). In this study, we investigated the effect of graphite on the tribological properties of polystyrene (PS) with "ball-on-three-plates" tests. Graphite-filled PS plates were produced via an internal mixer and compression molding. Unhardened steel (1.4401) and nylon (PA66) balls were used for the tribological tests. Our results indicate that graphite loading, graphite type, and particle size have a big influence on the friction coefficient, the wear resistance, and the PV limit of PS both against steel and PA66. In particular, primary synthetic graphite performs better than secondary synthetic graphite due to the higher degree of crystallinity.

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Carbon Black for Electrically Conductive Polymer Applications

Spahr¹,

Gilardi²,

Bonacchi³

2017

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Evaluation of a simple finite element method for the calculation of effective electrical conductivity of compression moulded polymer–graphite composites

Scocchi

Ortona

Grossi

et al. 2013

Composites Part A: Applied Science and Manufacturing

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