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Force Distribution on Catalysts During Converter Assembly
Technical Paper
2000-01-0222
ISSN: 0148-7191, e-ISSN: 2688-3627
Annotation ability available
Sector:
Event:
SAE 2000 World Congress
Language:
English
Abstract
Thinwall substrates used in modern catalytic converters are more sensitive to assembly and operating forces. Various converter assembly processes are characterized using real time force transducer technology. The force distribution data from these assembly methods are presented. The analysis of this data leads to recommendations for packaging of converters depending on catalyst strength.
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Authors
Citation
Myers, S., Turek, A., Wooten, J., and Boehnke, J., "Force Distribution on Catalysts During Converter Assembly," SAE Technical Paper 2000-01-0222, 2000, https://doi.org/10.4271/2000-01-0222.Also In
Advanced Catalysts Substrates and Advanced Converter Packaging
Number: SP-1532; Published: 2000-03-06
Number: SP-1532; Published: 2000-03-06
References
- Gulati S. T. “Long-Term Durability of Ceramic Honeycombs for Automotive Emissions Control,” SAE paper No. 850130 February 1985
- Stroom P. D. Merry R. P. Gulati S. T. “Systems Approach to Packaging Design for Automotive Catalytic Converters,” SAE paper No. 900500 February 1990
- Gulati S. T. “Thin Wall Ceramic Catalyst Supports,” SAE paper No. 1999-01-02730 1999
- Locker R. J. Schad M. J. Sawyer C.B. “Hot Vibration Durability of Ceramic Preconverters,” SAE paper No. 952414 October 1995
- Locker R. J. Sawyer C. B. Schmitt P. S. “Demonstration of High Temperature Durability for Oval Ceramic Catalytic Converters,” SAE paper No. 980042 February 1998
- I-Scan For Windows Pressure measurement system User's Manual Tekscan Boston, MA July 1998
- Gulati S. T. “Isostatic Strength of Porous Cordierite Ceramic Monoliths.” SAE paper No. 910375 February 1991