Understanding the effects of atmosphere type on thermal debinding behavior

Understanding the effects of different types and conditions of atmospheres can be used to optimize debinding cycles and address carburization/decarburization issues, this article. Examines the effects of reducing, neutral and oxidizing environments and their dew points on the debinding rate in powde...

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Veröffentlicht in:	Industrial heating 2000-10, Vol.67 (10), p.61-64
Hauptverfasser:	Grohowski, J A, Strauss, J T
Format:	Magazinearticle
Sprache:	eng
Schlagworte:	Ammonia Carbon Decomposition Gases Injection molding Polyolefins Powder metallurgy Stainless steel Temperature
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description	Understanding the effects of different types and conditions of atmospheres can be used to optimize debinding cycles and address carburization/decarburization issues, this article. Examines the effects of reducing, neutral and oxidizing environments and their dew points on the debinding rate in powder injection molding (PIM) processes. The use of a feedstock that incorporates a polyolefin backbone and stainless steel powder provides broad applicability of the study.
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subjects	Ammonia Carbon Decomposition Gases Injection molding Polyolefins Powder metallurgy Stainless steel Temperature
title	Understanding the effects of atmosphere type on thermal debinding behavior
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