Abstract: An inorganic filler dispersed-resin composition comprising a resin matrix and fused and spherical inorganic particles, such as ceramic particles produced by flame jet melting added in the resin matrix. The ceramic particles are selected from the group consisting of alumina, silica, magnesia, zircon, zirconia, and calcia, and the resin is selected from the group consisting of epoxy, phenol, acrylic polyester, silicone and ABS resins.

Abstract: Refractory nozzles including a so-called long nozzle, an upper nozzle, a lower nozzle, and an immersion nozzle made from high-alumina refractory material, graphite powder, silica powder and other minor constitutents wherein a major part of the high-alumina refractory material is thermospherized particles of about 0.3 to 3.0 mm in diameter which have good spalling and corrosion resistance. Revolving and rolling ability of the thermospherized particles gives far-reaching capability of pressing force deep into the nozzle center portion during shape-forming by a compaction press. Hence more uniform products can be obtained, and a less expensive unidirectional compaction process can be used instead of a high cost isostatic process for compaction.

Abstract: A sliding nozzle plate enjoying outstanding stability to resist wear, spalling, corrosion, and particularly loss due to corrosion is produced by preparing a composition consisting of at least one refractory raw material selected from the group consisting of acidic and/or neutral refractory raw materials, carbon, metal powder, and 2 to 50% by weight, based on the total weight of the composition, of coarse and/or medium particles of an alumina-zirconia-titania mixture of 42 to 79.3% by weight of alumina, 20 to 40% by weight of zirconia, 0.5 to 16% by weight of titania, and the balance to make up 100% by weight and not more than 2% by weight of inevitably entrained elements. The composition is required to have a particle size distribution of 30 to 60% by weight of coarse and medium particles and the balance to make up 100% by weight of fine particles and/or fine powder. The composition is kneaded with a binder, molded in a prescribed shape, and subjected to firing in reducing atmosphere.

Abstract: A non-fired silicon-carbide base refractory mixture comprising 95 to 99.5% (in respect to the mixture) of silicon carbide containing 1.5 to 8% (in respect to the silicon carbide) of particles not larger than 1.mu. and 0.5 to 5% of super-fine silica powder containing at least 50% of particles not larger than 1.mu. after a coagulation.

Abstract: A method of lining molten metal vessels and spouts with refractories, characterized in that refractories having adjusted grain size are thrown in the outer frame of a top opened vessels and spouts for molten metal and an inner molding frame for lining, which is provided with a vibrator and able to be imposed with loads, is mounted on said refractories and settled down to the prescribed position in the outer frame while vibrated and loaded, so that the internal circumference of the beforementioned outer frame can be lined with the refractories.