Brake Pads

Reza Taherian, Associate Professor and Head of the Polymer Research Laboratory, Faculty of Chemical and Materials Engineering, Shahrood University of Technology, Iran. He received his PhD in Materials Engineering from Shiraz University in 2011. His research interests and related publication works center on carbon-polymer composites, with investigations of their porosity, conductivity, and mechanical and thermal properties. For Elsevier, he has previously authored Electrical Conductivity in Polymer-Based Composites (2018). He has commercialized products through his company in the field of electrically and thermally conductive adhesives, and is actively involved in manufacturing and consulting with various companies on the production of composites reinforced with carbon and glass fibers for applications such as PEM fuel cells, aircraft bodies, and similar technologies.

Part I: Materials
1. Classification of brake pads in automotive and aerospace applications
2. An overview of composite materials
3. Binders for brake pads
4. Reinforcement fiber materials for brake pads
5. Organic additives for brake pads
6. Filler materials for brake pads
7. Abrasive and lubricant materials for brake pads
8. Carbon allotropes in Brake Pads
9. Using eco-friendly materials in brake pads
10. Design and materials of aircraft brake pads: types, formulations, and case studies

Part II: Manufacturing, testing, and modeling
11. Manufacturing parameters (i.e., temperature, pressure, mixing method, and heat treatment) and their effect on the properties of brake pads
12. Mechanical and tribological testing in brake pads: wear resistance, coefficient of friction, hardness, tensile, and compression tests
13. Thermal conductivity in brake pads
14. Noise testing
15. Porosity in brake pads: origins, measurement, and its influence on performance
16. Advancements in brake pad modeling and predictive maintenance