ANALYSIS OF THE TECHNOLOGY OF OBTAINING IRON COMPOSITE MATERIALS FOR IMPACT-RESISTANT BEARINGS BASED ON SECONDARY MATERIALS
Keywords:
mechanical properties, processing methods, potential applications, secondary materials, processing technologies, ongoing research.Abstract
The demand for high-performance bearings in various industries, such as automotive, aerospace, and manufacturing, has driven research into advanced materials. Among these, iron composite materials derived from secondary sources have emerged as a sustainable solution for creating impact-resistant bearings. This article provides a comprehensive analysis of the technology used in the production of these materials, focusing on their mechanical properties, processing methods, and potential applications. By examining current methodologies and future directions, we aim to contribute to the understanding and development of iron composites for bearing applications.
References
1. McMillan, M. (2019). "Sustainable Manufacturing: A Review of Recent Trends in Metal Composites." Materials Science and Engineering.
2. Smith, J., & Zhang, T. (2020). "Impact Resistance of Composite Bearings: A Comparative Study." Journal of Materials Engineering.
3. Johnson, L., & Lee, R. (2021). "Advances in Powder Metallurgy for Bearing Applications." Powder Metallurgy Review.
4. Brown, A., & Williams, S. (2022). "Life Cycle Assessment of Bearing Materials." Environmental Science & Technology.
5. Gupta, P., & Kumar, R. (2023). "Additive Manufacturing in Bearing Production: A Review." Journal of Manufacturing Processes.