Abstract
In this study thermal degradation of feedstock based on Al2O3 high compressible superground powder was investigated. The alumina powder was mixed with polymeric binders to compose the feedstock. Binder systems for CIM (Ceramic Injection Moulding) technology differed in concentration and composition of polyethylene, polyethylene glycol, low density polyethylene and waxes. The debinding and pre-sintering behavior of formulated feedstocks was characterized by thermogravimetric analysis. The results demonstrated the relationship between the feedstock thermal degradation properties and the binder system composition.
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