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Technical Paper

Evaluation of SoftMountSM Technology for Use in Packaging UltraThinwall Ceramic Substrates

2002-03-04
2002-01-1097
Quantitative in-use pressure measurements were taken from packaging ceramic substrates with the SoftMountSM technology and two more traditional technologies, stuffing and tourniquet. Each technology was assessed using four separate mat materials. Mat selection enhanced the application of the SoftMountSM technology through the reduced pressures applied to the substrate during packaging. High temperature and low temperature thermal cycling studies were performed on the canned converters for the three packaging technologies so that an evaluation could be made of converter durability. The SoftMountSM packaging technology yielded the lowest pressures of all the processes studied, regardless of mat type. The laminar hybrid mat evaluated yielded the best combination of pressure and durability performance. Low temperature residual shear strengths following thermal cycling of the converters showed good correlation between the SoftMountSM technology and the stuffing method.
Technical Paper

Thin Film Pressure Sensor Technology Applied to Catalytic Converter Packaging

2001-03-05
2001-01-0223
Application of new ultra-thinwall ceramic substrate technology to many new vehicle exhaust emission applications has lead to an interest in better understanding the pressures to which substrates are exposed during packaging operations. A recently identified thin film load cell technology has permitted a more analytical evaluation of pressure distributions that develop during ceramic substrate packaging. The optimum configuration of this technique for studying canning operations will be investigated as part of the study. In addition to identifying the characteristic pressure distributions created during canning processes, the impact of various process parameters on this distribution was also investigated.
Technical Paper

Advances in Durability and Performance of Ceramic Preconverter Systems

1995-02-01
950407
Ceramic preconverters have become a viable strategy to meet the California LEV and ULEV standards. To minimize cold start emissions the preconverter must light-off quickly and be catalytically efficient. In addition, it must also survive the more severe thermomechanical requirements posed by its close proximity to the engine. The viability of the ceramic preconverter system to meet both emissions and durability requirements has also been reported recently(1,2). This paper further investigates the impact preconverter design parameters such as cell density, composition, volume, and catalyst technology have on emissions and pressure drop. In addition, different preconverter/main converter configurations in conjunction with electrically heated catalyst systems are evaluated. The results demonstrate that ceramic preconverters substantially reduce cold start emissions. Their effectiveness depends on preconverter design and volume, catalyst technology, and the system configuration.
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