The invention concerns a batch for the production of a refractory product, a process for the production of a refractory product, a refractory product as well as the use of a refractory product.

A porous ceramic of the present disclosure contains yttrium zirconate and yttrium oxide, and at least one of them is a main component. A member for a semiconductor manufacturing apparatus such as a shower plate, a plug or the like in a semiconductor manufacturing apparatus is made of the above porous ceramic.

A porous ceramic of the present disclosure contains yttrium zirconate and yttrium oxide, and at least one of them is a main component. A member for a semiconductor manufacturing apparatus such as a shower plate, a plug or the like in a semiconductor manufacturing apparatus is made of the above porous ceramic.

A catalytic composition is built up from a ceramic material including a catalytic material and a first inorganic binder and a second inorganic binder and a catalytic structure made thereof. Preferably, the structure is made by a colloidal ceramic shaping technique. The structure is usable for catalytic or ion exchange applications as well. It is demonstrated that the catalytic structures have excellent mechanical, physicochemical and catalytic properties.

A catalytic composition is built up from a ceramic material including a catalytic material and a first inorganic binder and a second inorganic binder and a catalytic structure made thereof. Preferably, the structure is made by a colloidal ceramic shaping technique. The structure is usable for catalytic or ion exchange applications as well. It is demonstrated that the catalytic structures have excellent mechanical, physicochemical and catalytic properties.

An insulated exhaust port liner of a cylinder head assembly for fluidly connecting to an internal combustion engine of a motor vehicle includes a sealing layer. The sealing layer has a first surface defining a passage for fluidly connecting to the internal combustion engine and receiving exhaust gas. The sealing layer further includes a second surface opposite to the first surface. The liner further includes a thermal barrier layer coated onto the second surface of the sealing layer. The thermal barrier layer is a porous non-woven material for supporting the sealing layer on the cylinder head and reducing a transfer of heat from the sealing layer to the cylinder head.

An insulated exhaust port liner of a cylinder head assembly for fluidly connecting to an internal combustion engine of a motor vehicle includes a sealing layer. The sealing layer has a first surface defining a passage for fluidly connecting to the internal combustion engine and receiving exhaust gas. The sealing layer further includes a second surface opposite to the first surface. The liner further includes a thermal barrier layer coated onto the second surface of the sealing layer. The thermal barrier layer is a porous non-woven material for supporting the sealing layer on the cylinder head and reducing a transfer of heat from the sealing layer to the cylinder head.

Porous, electrically conductive ceramic foams incorporating continuous self-assembled graphene networks are described. The disclosed approach uses interfacial trapping to spontaneously exfoliate and assemble pristine graphite, not graphite oxide, in a ceramic sol-gel. The composite foams display electrical conductivity and joule heating, with anticipated applications as, for example, catalyst supports, thermoelectrics, and porous electrodes.

Porous, electrically conductive ceramic foams incorporating continuous self-assembled graphene networks are described. The disclosed approach uses interfacial trapping to spontaneously exfoliate and assemble pristine graphite, not graphite oxide, in a ceramic sol-gel. The composite foams display electrical conductivity and joule heating, with anticipated applications as, for example, catalyst supports, thermoelectrics, and porous electrodes.

A method of manufacturing a thermally insulating product comprises: (a) forming a mixture comprising solvent and gel network former and optionally foaming agent; (b) dispersing a thermally insulating filler in the mixture; and (c) drying the mixture to form the thermally insulating product.