Provided is a refractory product which is not impregnated with pitch or the like, wherein it has higher corrosion-erosion resistance and thermal shock resistance as compared to a refractory product subjected to pitch or the like-impregnation treatment. The refractory product which is not impregnated with tar or pitch is characterized in that, in terms of values of physical properties of a sample of the refractory product as measured after heat-treating the sample in a non-oxidizing atmosphere at 1200° C.: an apparent porosity is 7% or less; a total void volume of pores having a pore diameter of 1 μm or less is 80% or more of an integrated void volume of pores of the entire sample of the refractory product; and a gas permeability is 50×10.sup.−17 m.sup.2 or less.

In a multilayer ceramic capacitor, an intersection of an interface is defined by a second dielectric ceramic layer, a first internal electrode layer or a second internal electrode layer, and a third dielectric ceramic layer, on a plane including a length direction and a width direction, the second dielectric ceramic layer and the third dielectric ceramic layer include a near intersection region at or near the intersection, and an average particle size of dielectric particles in the near intersection region is smaller than average particle sizes of dielectric particles in the first dielectric ceramic layer, the second dielectric ceramic layer, and the third dielectric ceramic layer.

A composition which can be photopolymerized to make a part consisting of an oxide ceramic, or a hybrid part comprising at least one oxide ceramic and organic constituents, by a stereolithographic technique, the composition comprising: at least one photopolymerizable organic compound; at least one photo-initiator; at least one precursor of the oxide ceramic wherein the composition comprises from 25% to 70% by mass, relative to the total mass of the composition, of the at least one precursor of the oxide ceramic; and wherein the at least one precursor of the oxide ceramic comprises a mixture comprising a nanometric powder of the oxide ceramic, and at least one other element selected from a micrometric powder of the oxide ceramic and a pre-ceramic compound of the oxide ceramic.

In a multilayer ceramic capacitor, an intersection of an interface is defined by a second dielectric ceramic layer, a first internal electrode layer or a second internal electrode layer, and a third dielectric ceramic layer, on a plane including a length direction and a width direction, the second dielectric ceramic layer and the third dielectric ceramic layer include a near intersection region at or near the intersection, and an average particle size of dielectric particles in the near intersection region is smaller than average particle sizes of dielectric particles in the first dielectric ceramic layer, the second dielectric ceramic layer, and the third dielectric ceramic layer.

Described herein are composite materials composed of ceramic particles coated with a surfactant incorporated within a polymer matrix, methods of making same, filaments composed of the same, and articles printed using the filaments. The composite materials and articles described herein have desirable electronic and thermal properties for use in radio frequency (RF) and millimeter wave devices and demonstrate reliable performance at elevated humidity levels.

In a non-aqueous electrolyte secondary battery, a negative electrode includes covered graphite particles in each of which a surface of a graphite particle is covered with amorphous carbon, styrene-butadiene rubber, and at least one of carboxymethyl cellulose and a salt of carboxymethyl cellulose. The amorphous carbon included in each of the covered graphite particles includes an amorphous carbon layer formed of a first amorphous carbon and amorphous carbon particles formed of a second amorphous carbon. The second amorphous carbon has a higher electrical conductivity than the first amorphous carbon, the amorphous carbon particles have a BET specific surface area of 37 to 47 m.sup.2/g, the styrene-butadiene rubber has an average primary particle size of 150 to 210 nm, and at least one of the carboxymethyl cellulose and the salt of carboxymethyl cellulose has a weight average molecular weight of 3.710.sup.5 to 4.310.sup.5.

A tungsten carbide-cubic boron nitride composite material and preparation method thereof mainly includes WC and cBN, wherein the WC powder is coated with Co nano-layer and the cBN powder is coated with SiO.sub.2 nano-layer, and hardness and toughness of the composition material can be improved by coating. The method for preparing a tungsten carbide-cubic boron nitride composite material adopts chemical vapor deposition method and high temperature sintering method. First nano-layers were coated on the surface of WC and cBN, and then the bulk materials can be obtained via high-temperature sintering.

A sintered compact essentially consisting of zinc (Zn), gallium (Ga), silicon (Si) and oxygen (O), wherein a Zn content expressed in terms of ZnO is 5 to 60 mol %, a Ga content expressed in terms of Ga.sub.2O.sub.3 is 8.5 to 90 mol %, and a Si content expressed in terms of SiO.sub.2 is 0 to 45 mol %, and the sintered compact satisfies a condition of A(B+2C) when the Zn content expressed in terms of ZnO is A (mol %), the Ga content expressed in terms of Ga.sub.2O.sub.3 is B (mol %), and the Si content expressed in terms of SiO.sub.2 is C (mol %), and has a relative density of 90% or higher. An object of this invention is to efficiently obtain an amorphous film having high transmissivity and a low refractive index without having to introduce oxygen into the atmosphere during film deposition by DC sputtering.

A sintered compact essentially consisting of zinc (Zn), gallium (Ga), silicon (Si) and oxygen (O), wherein a Zn content expressed in terms of ZnO is 5 to 60 mol %, a Ga content expressed in terms of Ga.sub.2O.sub.3 is 8.5 to 90 mol %, and a Si content expressed in terms of SiO.sub.2 is 0 to 45 mol %, and the sintered compact satisfies a condition of A(B+2C) when the Zn content expressed in terms of ZnO is A (mol %), the Ga content expressed in terms of Ga.sub.2O.sub.3 is B (mol %), and the Si content expressed in terms of SiO.sub.2 is C (mol %), and has a relative density of 90% or higher. An object of this invention is to efficiently obtain an amorphous film having high transmissivity and a low refractive index without having to introduce oxygen into the atmosphere during film deposition by DC sputtering.

Described herein are composite materials composed of ceramic particles coated with a surfactant incorporated within a polymer matrix, methods of making same, filaments composed of the same, and articles printed using the filaments. The composite materials and articles described herein have desirable electronic and thermal properties for use in radio frequency (RF) and millimeter wave devices and demonstrate reliable performance at elevated humidity levels.