Effective utilization of surface-processed/untreated Cardiospermum halicababum agro-waste fiber for automobile brake pads and its tribological performance

A growing worldwide awareness of the need for environmental sustainability has increased the demand for fibers in all possible applications. Utilizing agrowaste biofiber from Cardiospermum halicababum that has been untreated/surface-processed to create biofiber-based brake friction composites is the primary focus of this research. A standard manual retting technique was used to extract these fibers, which were then subjected to alkali and silane treatments. The fibers were then tested for their physiochemical characteristics. A standard industrial manufacturing procedure produced brake friction composites in brake pad form using surfaceprocessed / untreated Cardiospermum halicababum fibers. The brake pads' performance was compared to industry-standard commercial pads. As per SAE J 661, the Chase test evaluated their tribological performance. According to the findings, brake pads made from silane-treated Cardiospermum halicacabum fibers exhibited a higher friction coefficient than those made from alkali-treated and untreated fibers. The worn surface of the tested pads was examined using a scanning electron microscope, revealing distinctive characteristics such as plateau formations and plowing. The pads were ranked by considering different criteria using the Extensive Evaluation Method.