Patent application number | Description | Published |
20130084445 | METHOD OF FORMING A WEB FROM FIBROUS MATERIAL - Fibrous material webs and methods of making the fibrous material webs. Binderless webs can be formed in a continuous process where fiber material, such as glass is melted and formed into fibers. The fibers are formed into a web of binderless glass fibers or a web with a dry binder. The binderless web or the web with dry binder can be layered and/or the fibers that make up the web can be mechanically entangled, for example, by needling. | 04-04-2013 |
20130145960 | Methods For Reducing Odors In Asphalt - Compositions and methods for reducing the foul odors of a hydrocarbonaceous material such as asphalt comprise the addition of an odor reducing amount of a reducing carbohydrate and/or a soluble zinc compound. The reducing carbohydrate may be a monosaccharide, oligosaccharide or polysaccharide, including a starch; and it may be used as a sole odor reducing agent or in combination with soluble zinc compounds and/or other odor reducing compounds. | 06-13-2013 |
20130150471 | CATALYZED EPOXY-CARBOXYLIC ACID SPRAY FOAMS AND METHODS OF USING SAME - A foamable composition, foamed product and method of forming a foamed product are disclosed. The foamed product includes an epoxy resin crosslinked with a polycarboxylic acid to form a polymeric foam having cells filled with a blowing agent. The reaction between the epoxy resin and the carboxylic acid is catalyzed by a chromium (III) catalyst, particularly an active, carboxylated chromium salt, so as to speed the reaction at ambient temperature to allow the foam to set and cure so rapidly that, when applied to a vertical surface, the effects of gravity do not destroy the foam by pulling it down before the foam sets. Other ingredients preferably include a rheology modifier or thixotrope. The foams may be used for a wide variety of applications including sealing and/or insulating building structures. | 06-13-2013 |
20130152637 | APPARATUS AND METHOD FOR CONTROLLING MOISTURE IN THE MANUFACTURE OF GLASS FIBER INSULATION - Apparatus, systems and methods for making a fibrous products form molten material into fibers. The fibers are sprayed with a coolant liquid to cool the fibers. A flow rate of the sprayed coolant liquid is controllable. The fibers are also sprayed with a binder dispersion. The fibers are directed toward a conveyor to form an uncured fibrous pack. A thickness of the uncured pack is measured and the flow rate of the sprayed coolant liquid is controlled based on the measured thickness of the uncured pack. | 06-20-2013 |
20130152638 | APPARATUS AND METHOD FOR CONTROLLING MOISTURE IN THE MANUFACTURE OF GLASS FIBER INSULATION - Apparatus, systems and methods for monitoring and controlling the amount of moisture introduced into the forming hood area in the manufacture of mineral fiber insulation products. Moisture from coolant liquids, binder dispersions and binder diluents are all introduced deliberately into a forming hood; ambient moisture and water from combustion are additional sources. A series of global variable control valves, one for each fluid system; as well as individual variable control valves for each fiberizing unit are provided with associated meters. Sensors monitor fibrous pack conditions and ambient conditions and provide inputs to the valve control system. A specific 3-ring liquid dispensing system is also disclosed. | 06-20-2013 |
20130174435 | NONWOVEN MATERIAL AND DRYER WITH NONWOVEN MATERIAL - A non-woven fabric includes flame retardant fibers and binding fibers mixed with the flame retardant fibers. The binding fibers set a thickness of the fabric. Application of a flame to the fabric causes the binding fibers to degrade and the flame retardant fibers to expand such that the thickness of the fabric increases, for example by a factor of two or more. The non-woven fabric can be used in a wide variety of different applications. For example, the non-woven fabric may be used to make seals of a drier, heat shields, fire barriers, and/or vents. | 07-11-2013 |
20130186385 | INSULATION CONFIGURATION FOR THERMAL APPLIANCES - An insulation system for a thermal oven. The insulation system comprises a cabinet and a liner positioned within the cabinet. The liner defines an oven cavity. The liner includes opposing sides, a top, a bottom, a front and a back. A layer of insulation is positioned between the cabinet and the outside of the opposing sides, top, bottom and back of the liner. The layer of insulation is positioned to create an air gap between the insulation and the opposing sides, top, bottom and back of the liner. The insulation has a thermal energy reflective facing attached to an interior surface facing the liner. | 07-25-2013 |
20130190413 | POLYSTYRENE/POLYETHYLENE OXIDE COPOLYMER CELL SIZE ENLARGER FOR FOAM - Polymeric foam and polymeric foam products that contain a foamable polymer material, at least one blowing agent, an infrared attenuating agent, and a polystyrene/polyethylene oxide copolymer are provided. In exemplary embodiments, the blowing agent contains an HFC. The maleic anhydride-styrene copolymer grafted with polyethylene oxide increases the cell size of the polymer foam and offsets or even negates the decreased cell size caused by an HFC blowing agent and/or infrared attenuating agents. In addition, the copolymer of maleic anhydride-styrene grafted with polyethylene oxide has a positive affect on the processability of the blowing agent(s) in the composition by both widening the process window and enhancing the solubility of the blowing agent in the polymer melt. Thus, the polystyrene/polyethylene oxide copolymer present in the inventive composition acts as a cell enlarger, a plasticizer, and a processing aid. A method of forming an extruded foam product is also provided. | 07-25-2013 |