The present disclosure relates to a porous ceramic media that may include a chemical composition, a phase composition, a total open porosity content of at least about 10 vol. % and not greater than about 70 vol. % as a percentage of the total volume of the ceramic media, and a nitric acid resistance parameter of not greater than about 500 ppm. The chemical composition for the porous ceramic media may include SiO.sub.2, Al.sub.2O.sub.3, an alkali component and a secondary metal oxide component selected from the group consisting of an Fe oxide, a Ti oxide, a Ca oxide, a Mg oxide and combinations thereof. The phase composition may include an amorphous silicate, quartz and mullite.

A porous material includes aggregate particles and a binding material. In the aggregate particles, oxide films containing cristobalite are provided on surfaces of particle bodies that are silicon carbide particles or silicon nitride particles. The binding material binds the aggregate particles together in a state where pores are provided therein. The porous material contains at least one of copper, calcium, and nickel as an ancillary component.

The present disclosure relates to a porous ceramic media that may include a chemical composition, a phase composition, a total open porosity content of at least about 10 vol. % and not greater than about 70 vol. % as a percentage of the total volume of the ceramic media, and a nitric acid resistance parameter of not greater than about 500 ppm. The chemical composition for the porous ceramic media may include SiO.sub.2, Al.sub.2O.sub.3, an alkali component and a secondary metal oxide component selected from the group consisting of an Fe oxide, a Ti oxide, a Ca oxide, a Mg oxide and combinations thereof. The phase composition may include an amorphous silicate, quartz and mullite.

A ceramic honeycomb body exhibiting a primary phase of aluminum titanate solid solution with a pseudobrookite structure, and a secondary phase of cordierite. The ceramic honeycomb body contains the aluminum titanate solid solution in an amount greater than or equal to 50 wt. % and cordierite in an amount greater than or equal to 20 wt. %. Low anisotropy is demonstrated by the primary phase of aluminum titanate solid solution by comprising an AT tangential/axial i-ratio1.35. Batch mixtures including spherical alumina and methods of manufacturing ceramic honeycomb bodies using the batch mixtures with spherical alumina are provided, as are other aspects.

Hydrophobic shaped silica bodies having low density and low thermal conductivity are produced by forming a dispersion of silica in a solution of binder and organic solvent, and removing the solvent and shaping to form a shaped body. The shaped bodies retain their hydrophobicity, are stable with regards to shape, and are useful in acoustic and thermal insulation.

Hydrophobic shaped silica bodies having low density and low thermal conductivity are produced by forming a dispersion of silica in a solution of binder and organic solvent, and removing the solvent and shaping to form a shaped body. The shaped bodies retain their hydrophobicity, are stable with regards to shape, and are useful in acoustic and thermal insulation.

The present invention is related to a porous ceramic composite structure with high mechanical strength and a wide range of porosity which makes flow rate of fluid highly tunable. The porous ceramic composite structure comprises a dense ceramic sheath and one or more inner porous ceramic bodies. The ceramic sheath provides good mechanical properties, protects the one or more inner porous ceramic bodies, and allows the one or more inner porous ceramic bodies to undergo a wide range of porosity changes while still maintaining excellent mechanical properties.

The present invention is related to a porous ceramic composite structure with high mechanical strength and a wide range of porosity which makes flow rate of fluid highly tunable. The porous ceramic composite structure comprises a dense ceramic sheath and one or more inner porous ceramic bodies. The ceramic sheath provides good mechanical properties, protects the one or more inner porous ceramic bodies, and allows the one or more inner porous ceramic bodies to undergo a wide range of porosity changes while still maintaining excellent mechanical properties.

Provided is a ceramic filter for a beverage, the ceramic filter requiring a permeation time ranging from 3 seconds to 15 seconds in a case where 150 ml of hot water having a temperature of 90 C. is introduced, having a total pore volume of 0.230 to 0.270 cm.sup.3/g, and having a median pore diameter of 100 to 160 m. Also provided is a method for manufacturing the ceramic filter.

Provided is a ceramic filter for a beverage, the ceramic filter requiring a permeation time ranging from 3 seconds to 15 seconds in a case where 150 ml of hot water having a temperature of 90 C. is introduced, having a total pore volume of 0.230 to 0.270 cm.sup.3/g, and having a median pore diameter of 100 to 160 m. Also provided is a method for manufacturing the ceramic filter.