Abstract: A non-woven textile constructed using splitable staple fibers is usable in lithographic and inkjet printer machine cleaning applications. The use of the splitable staple fiber non-woven in a lithographic printing machine provides improved removal and containment of waste inks, fluids, and paper dust within the printer machine. The use of the splitable staple fiber non-woven in an inkjet printing machine also provides removal of ambient particulate such as human hair or other particulate foreign to the printer machine contained within the printer machine. The cleaning ability of the non-woven textile is a function of several properties including the large amount of available fiber surface area per area of non-woven, the surface uniformity, the fibers' microscopic sharp edges, the capillary force, and the mechanical toughness provided by the highly entangled split staple fine denier fibers which make up the splitable staple fiber non-woven.

Abstract: A toner release agent delivery system for a printing device utilizes a roller which has a plurality of layers of a non-woven textile web. The textile web is comprised of substantially all sub-denier fibers. The release agent delivery system with predominately sub-denier fibers has a very high release agent retention capability with a very low leak rate.

Abstract: A toner release agent delivery system for a printing device utilizes a roller which has a plurality of layers of a non-woven textile web. The textile web is comprised of substantially all sub-denier fibers. The release agent delivery system with predominately sub-denier fibers has a very high release agent retention capability with a very low leak rate.

Abstract: A composite non-woven needlefelt ink absorber that is particularly suited for use with an ink jet printer to absorb and disperse waste ink utilizes at least two distinct layers. The layer initially contacted by the ink is low density/course denier. The final ink receiving and retaining layer is high density/fine denier. Any intermediate layers are also intermediate in density and denier.

Abstract: A composite non-woven needlefelt ink absorber that is particularly suited for use with an ink jet printer to absorb and disperse waste ink utilizes at least two distinct layers. The layer initially contacted by the ink is low density/course denier. The final ink receiving and retaining layer is high density/fine denier. Any intermediate layers are also intermediate in density and denier.

Abstract: A release agent delivery system for an electrophotographic printing process utilizes a web which is a non-woven textile comprised of substantially all sub-denier fibers. The release agent delivery system using the textile produced with predominantly sub-denier fibers, creates finer oil flow patterns which yield improved print quality though decreased microscopic streaking.

Abstract: A method of producing near net shape fusion cast refractories. The method includes the steps of continuously introducing refractory particles into a melting furnace, rapidly heating the particles, depositing the heated particles into a melt pool, continuously introducing the molten material into a mold, and continuously withdrawing a solidified body from the mold as the molten material continually solidifies. The above stated method produces a fusion cast refractory having a generally random, fine, uniform microstructure; uniform chemistry; and generally evenly distributed closed pores.