This application provides a 5D ceramic housing structure and a 5D ceramic processing process method, to resolve a problem that long processing time of existing CNC and polishing results in high production costs of a housing of an electronic device and low production efficiency. The method includes: obtaining a raw ceramic material, that is, a ceramic powder; performing casting processing on the raw ceramic material to obtain a to-be-sintered green-state ceramic sheet; performing flat ceramic sheet pre-sintering on the green-state ceramic sheet to obtain a sintered product with a shrinkage rate of 18% to 23%; performing 5D heat-bend forming on the sintered product, to enable the sintered product to be further crystallized and deformed by heating to form a ceramic housing; performing fiber adhesion on the ceramic housing; and forming a 5D ceramic housing structure.

A method for producing a decorated mineral composite body, a decorated mineral composite body and the use of a multilayer film for producing a decorated mineral composite body.

An article includes a ceramic-based substrate and a barrier layer on the ceramic-based substrate. The barrier layer includes a matrix phase and gettering particles in the matrix phase. The gettering particles with an aspect ratio greater than one are aligned such that a maximum dimension of the gettering particles extends along an axis that is generally parallel to the substrate. The barrier layer includes a dispersion of diffusive particles in the matrix phase. A composite material and a method of applying a barrier layer to a substrate are also disclosed.

An article includes a ceramic-based substrate and a barrier layer on the ceramic-based substrate. The barrier layer includes a matrix phase and gettering particles in the matrix phase. The gettering particles with an aspect ratio greater than one are aligned such that a maximum dimension of the gettering particles extends along an axis that is generally parallel to the substrate. The barrier layer includes a dispersion of diffusive particles in the matrix phase. A composite material and a method of applying a barrier layer to a substrate are also disclosed.

A terrazzo product including a first primer layer on an upper surface of a concrete substrate; a second primer layer on the first primer layer; a seed layer on the second primer layer, the seed layer including one or more of sand and shot; a terrazzo layer on the seed layer, the terrazzo layer including, by weight, 57% calcium sulfoaluminate (CSA) cement, 29% white milk glass, and 14% of one or more of broken mirrored glass and colored glass; a first joint filler in one or more cuts formed in the terrazzo layer; a concrete densifier within one or more of the first joint filler, the terrazzo layer, the seed layer, the second primer layer, the first primer layer, and at least a portion of the concrete substrate; and a sealer on the terrazzo layer and the first joint filler.

A terrazzo product including a first primer layer on an upper surface of a concrete substrate; a second primer layer on the first primer layer; a seed layer on the second primer layer, the seed layer including one or more of sand and shot; a terrazzo layer on the seed layer, the terrazzo layer including, by weight, 57% calcium sulfoaluminate (CSA) cement, 29% white milk glass, and 14% of one or more of broken mirrored glass and colored glass; a first joint filler in one or more cuts formed in the terrazzo layer; a concrete densifier within one or more of the first joint filler, the terrazzo layer, the seed layer, the second primer layer, the first primer layer, and at least a portion of the concrete substrate; and a sealer on the terrazzo layer and the first joint filler.