This content is not included in
your SAE MOBILUS subscription, or you are not logged in.
Properties of 410-L P/M Stainless Steel Antilock Brake Sensor Rings
Annotation ability available
Sector:
Language:
English
Abstract
The successful use of P/M methods for the production of sensor rings used in antilock brake systems is predicated upon the attainment of a combination of mechanical, magnetic, and corrosion resistance properties. This paper summarizes these properties for high temperature vacuum and hydrogen sintering in commercial furnaces. Properties are also compared with parts sintered at lower temperatures and the effects of repressing and annealing are included. The results are analyzed with respect to microstructure and chemical analysis.
Recommended Content
Technical Paper | Joining of Aluminum Alloys 6009/6010 |
Technical Paper | Cutting Force Evaluation Based On Total Energy Consumption |
Authors
Topic
Citation
Shah, S., Samal, P., and Klar, E., "Properties of 410-L P/M Stainless Steel Antilock Brake Sensor Rings," SAE Technical Paper 930449, 1993, https://doi.org/10.4271/930449.Also In
References
- Hanada M. Amano N. Takeda Y. Saegusa Y. Koiso T. “Development of a Powder Metallurgy Sensor Ring for Use in an Antilock Brake System” SAE Technical Paper Series, paper # 890407 , International Congress and Exhibition Detroit, Michigan Feb. 27 March 3 1989
- Hanejko F. J. Rutz G. G. Oliver C. G. “Effects of Processing and Materials on the Soft Magnetic Performance of Powder Metallurgy Parts” 1992 Powder Metallurgy World Congress San Francisco, Ca June 21-26 1992
- Lall C. “The Effect of Sintering Temperature and Atmosphere on the Soft Magnetic Properties of P/M Materials” 1992 Powder Metallurgy World Congress San Francisco, Ca June 21-26 1992
- Moyer K. H. “Ferritic Stainless Steels for Magnetic Applications” SAE International Congress and Exhibition Detroit, Michigan Feb. 26 March 2 1990 SAE Technical Paper Series # 900384
- Lall C. Baum L. W. “High Performance Soft Magnetic Components by Powder Metallurgy and Metal Injection Molding” Modern Dev. in Powder Metallurgy 18-21 1988 363 389
- Klar E. “Corrosion of Powder Metallurgy Materials” Metals Handbook 13 Ninth 1984 823 845