Abstract: A shaped composite body of a reaction-bonded, silicon-infiltrated mixed ceramic, the microstructure of which is determined by primary grains of crystalline B4C grains (1) of mean grain size d50>100 ?m and <500 ?m and a fraction of >10%, by weight, and <50%, by weight, and by primary grains of a finer silicon carbide with d50<70 ?m and a fraction of >10%, by weight, and <50%, by weight, and the primary grains are siliconized (3) bonded by secondarily formed silicon carbide with a fraction of >5%, by weight and <25%, by weight, in a silicon carbide matrix having a free metallic silicon (2) content of >1%, by weight, and <20%, by weight.

Abstract: Method for producing shaped bodies from reaction-bonded, silicon-infiltrated silicon carbide and/or boron carbide, characterized in that a monolithic preliminary body is built up in layers using a formless granulation to which a physical or chemical hardening or melt process is applied, wherein the granulation has a weight fraction of at least 95% silicon carbide and/or boron carbide with an average grain size of 70 to 200 ?m, the so-created preliminary body is impregnated at least once by the introduction of a carbon black suspension or via a gas-phase separation and secondary silicon carbide is created in contact with liquid or gaseous silicon by a subsequent reaction firing that solidifies an engagement composite produced.

Abstract: Method for producing shaped bodies from reaction-bonded, silicon-infiltrated silicon carbide and/or boron carbide, characterised in that a monolithic preliminary body is built up in layers using a formless granulation to which a physical or chemical hardening or melt process is applied, wherein the granulation has a weight fraction of at least 95% silicon carbide and/or boron carbide with an average grain size of 70 to 200 pm, the so-created preliminary body is impregnated at least once by the introduction of a carbon black suspension or via a gas-phase separation and secondary silicon carbide is created in contact with liquid or gaseous silicon by a subsequent reaction firing that solidifies an engagement composite produced.

Abstract: A method for manufacturing a silicon carbide composite body and includes the steps of forming a slurry including silicon carbide and a carbonaceous precursor, adding to the slurry composite granules containing a carbonaceous binder and carbon black, drying the slurry, shaping the dried slurry and sintering the dried and shaped slurry at a temperature of at least 2000° C. to form a body containing silicon carbide and non-graphitic carbon. The invention further relates to the composite body formed and the mixture prior to sintering.

Abstract: The invention relates to a support for a wagon superstructure for holding molded blanks of ceramic material which are to be fired, comprising a planar hollow-section grid structure, which is formed from interconnected webs and is made from a silicon carbide material with a multiplicity of openings and a plurality of bearing pieces which can be fitted into appropriate openings corresponding to desired support positions for a specific molded-blank shape and can be fixed in position.