Evaluation of the Friction Coefficient for TRIP1000 Steel under Different Conditions of Lubrication, Contact Pressure, Sliding Speed and Working Temperature
Luis Fernando Folle,
Bruno Caetano dos Santos Silva,
Marcelo Sousa de Carvalho,
Luiz Gustavo Souza Zamorano,
Rodrigo Santiago Coelho
Affiliations
Luis Fernando Folle
SENAI CIMATEC—SENAI Institute of Innovation (ISI) for Forming and Joining of Materials (CIMATEC ISI C&UM), Av. Orlando Gomes, 1845, Piatã, Salvador 41650-010, BA, Brazil
Bruno Caetano dos Santos Silva
SENAI CIMATEC—SENAI Institute of Innovation (ISI) for Forming and Joining of Materials (CIMATEC ISI C&UM), Av. Orlando Gomes, 1845, Piatã, Salvador 41650-010, BA, Brazil
Marcelo Sousa de Carvalho
SENAI CIMATEC—SENAI Institute of Innovation (ISI) for Forming and Joining of Materials (CIMATEC ISI C&UM), Av. Orlando Gomes, 1845, Piatã, Salvador 41650-010, BA, Brazil
Luiz Gustavo Souza Zamorano
Ford Motor Company, Salvador 40000-000, BA, Brazil
Rodrigo Santiago Coelho
SENAI CIMATEC—SENAI Institute of Innovation (ISI) for Forming and Joining of Materials (CIMATEC ISI C&UM), Av. Orlando Gomes, 1845, Piatã, Salvador 41650-010, BA, Brazil
The use of ultra-high-strength steels (UHSS) has been growing in recent years, mainly in the automotive industry. Since these steels have high strength and hardness, more applied stresses are required to deform them, probably also impacting friction behaviour. In this article, a variation in the process parameters commonly observed in sheet-metal forming, such as contact pressure, sliding speed, lubrication and working temperature was performed. The material used was TRIP1000. These process parameters were varied, aiming to investigate the friction-coefficient behaviour; however, it was observed that there were no significant variations, indicating that the steel hardness may have contributed to this. Another finding is that, even if the lubricant did not change the average value of the friction coefficient, it contributed to a more stable process, favouring the absence of premature wear of the tools.
