The present disclosure relates to the manufacture of ceramic products by aqueous gelcasting. Exemplary ceramic products include sanitary ware, such as toilets and sinks. The process includes a slurrying step, a mixing step, a molding step involving aqueous gelcasting, a drying step, a glazing step, and a firing step.

A method of manufacturing a textured former and a glove made therefrom, wherein the method comprises preparing a hand-shaped ceramic greenware, scanning the hand-shaped ceramic greenware to generate a digital 3D hand-shaped greenware model, modelling a pair of stencil covers with curvy texture line based on the digital 3D hand-shaped greenware model, printing the stencil covers, creating a curvy palm texture on the hand-shaped ceramic greenware with the aid of the stencil covers, firing the hand-shaped ceramic greenware with curvy palm texture in a kiln and dipping the hand-shaped ceramic former with curvy palm texture in an aqueous colloidal dispersion to produce glove with curvy palm texture.

A method of manufacturing a textured former and a glove made therefrom, wherein the method comprises preparing a hand-shaped ceramic greenware, scanning the hand-shaped ceramic greenware to generate a digital 3D hand-shaped greenware model, modelling a pair of stencil covers with curvy texture line based on the digital 3D hand-shaped greenware model, printing the stencil covers, creating a curvy palm texture on the hand-shaped ceramic greenware with the aid of the stencil covers, firing the hand-shaped ceramic greenware with curvy palm texture in a kiln and dipping the hand-shaped ceramic former with curvy palm texture in an aqueous colloidal dispersion to produce glove with curvy palm texture.

The invention relates to the making, on a support plate (34), of an annular space (76) in a ceramic paste covering this plate, in order, by successive deposits and firing of layers of said ceramic paste, to create a base of a ceramic shell (40) for the moulding of parts, the base having said annular space (76). For this purpose, between two deposits of said ceramic paste, and on the plate, said deformable annular element (82) will be deformed in order to break the ceramic layer.

A particulate composite ceramic material comprising: particles of at least one first ultra-high-temperature ceramic UHTC, the outer surface of said particles being at least partially covered by a porous layer made of at least one second ultra-high-temperature ceramic in amorphous form; and the particles defining a space therebetween; optionally, porous clusters of said at least one second ultra-high-temperature ceramic in amorphous form, distributed in said space; a dense matrix and at least one third ultra-high-temperature ceramic in crystallized form at least partially filling said space; optionally, a dense coating made of at least said third ultra-high-temperature ceramic in crystallized form, covering the outer surface of said matrix, said matrix and said coating representing 5% to 90% by mass with respect to the total mass of the material.

Part comprising said particulate ceramic composite material.

Method for manufacturing said part.

The present disclosure relates to the manufacture of ceramic products by aqueous gelcasting. Exemplary ceramic products include sanitary ware, such as toilets and sinks. The process includes a slurrying step, a mixing step, a molding step involving aqueous gelcasting, a drying step, a glazing step, and a firing step.

The present disclosure relates to the manufacture of ceramic products by aqueous gelcasting. Exemplary ceramic products include sanitary ware, such as toilets and sinks. The process includes a slurrying step, a mixing step, a molding step involving aqueous gelcasting, a drying step, a glazing step, and a firing step.

A pulp paper formed flange cover is provided. The pulp paper flange cover is adapted for protecting hydraulic motor/pump housing ports and openings, and surrounding surfaces. The flange cover may be infused with corrosion-preventive chemicals to protect the housing from corrosion. Additionally, the flange cover protects the housing surface from damage while preventing infiltration of the openings of the housing by contaminants.

Methods and apparatus are provided for pressure casting ceramic bodies. Methods and apparatus are provided for rapid ejection of cast ceramic bodies from a mold. A mold is described that has an impermeable cavity surface to provide dry release of the cast body. Ceramic bodies produced by the methods and apparatus have smooth, non-tacky surfaces after ejection from the mold

A moulded part (1) for a mould (100). The moulded part (1) comprises at least one shell (11) for casting a product. A flange (12) is arranged on a frame of the moulded part (1) for sealing against abutment a sealing surface (13). The shell (11) has a first permeability for a fluid and the flange (12) has a second permeability for the fluid. The second permeability is less than the first permeability.