Patent application number | Description | Published |
20090173423 | Gypsum board faced with non-woven glass fiber mat - A gypsum board comprises a set gypsum layer having a first face and a second face. A fibrous mat is affixed to at least one of the faces. The mat comprises a non-woven web bonded together with a resinous binder. The web is composed of chopped continuous glass fibers having an average fiber diameter ranging from about 9.5 to 12.5 μm. The board is exceedingly durable. It has a smooth surface that is readily finished in an aesthetically pleasing way, using paint or other wall covering systems. | 07-09-2009 |
20100031619 | Filter media including silicone and/or wax additive(s) - A method of improving filtration efficiency of a fibrous nonwoven filter media comprises providing a filter media and incorporating in the filter media one or more additives selected from the group consisting of silicone additives, wax additives, and mixtures thereof. The filter media comprises glass fibers, polymer fibers, and optionally binder. Inclusion of silicone and/or wax additive(s) in a filter media has surprisingly been found to increase filtration efficiency, for example, by 10-15%. | 02-11-2010 |
20100273376 | FIBER GLASS MAT, METHOD AND LAMINATE - Alkaline resistant fibrous products containing a binder comprised of a blend of urea formaldehyde and melamine formaldehyde and having particular use in bonding to alkaline materials having a pH of about 8 or above, including cementitious boards and other shapes, to provide manufacturing aids, reinforcement, fire resistance and a smooth surface are disclosed. Laminates containing one or more of the alkaline resistant fibrous products, with fibers bonded together with melamine formaldehyde and optionally a blend of urea formaldehyde and melamine formaldehyde binder, in contact with at least one cementitious layer are disclosed. Also, methods of making the alkaline resistant fibrous products and laminates that contain one or more layers of the alkaline resistant fibrous products are disclosed. | 10-28-2010 |
20110171538 | GLASS-FIBER CONTAINING COMPOSITE MATERIALS FOR ALKALI METAL-BASED BATTERIES AND METHODS OF MAKING - Glass-fiber composites are described that include a substrate containing glass fibers and particles in contact with the glass fiber substrate. The particles may include an alkali-metal containing compound. In addition, batteries are described with an anode, a cathode, and an electrolyte. The cathode may include alkali-metal containing nanoparticles in contact with glass fibers. Also describe are methods of making a glass-fiber composite. The methods may include the steps of forming a wet laid non-woven glass fiber substrate, and contacting alkali-metal containing particles on the substrate. | 07-14-2011 |
20120321807 | METHOD OF MAKING TOUGH, FLEXIBLE MATS AND TOUGH, FLEXIBLE MATS - Methods of making nonwoven mats having good strength after being scored and folded and particularly useful in making lightweight, compressible ceiling panels are disclosed. The mats also have excellent flame resistance. The mats include a blend comprising a major portion of glass fibers and a minor portion of man-made polymer fibers, the fibers being bound together with a cured binder containing a homopolymer or copolymer of polyacrylic acid and a polyol. The binder bonding the mat together can be cured to only a “B” stage to produce thermoformable mats or more fully cured to produce mats having the properties described above. | 12-20-2012 |
20140030946 | GLASS FIBER REINFORCED FACER MAT - Embodiments of the invention provide fiber mat facers, ceiling panels, and method of manufacturing the same. A fiber mat facer may include a non-woven web of fibers having a first group of fibers with an average fiber diameter from about 6 μm to about 20 μm and a second group of fibers with an average fiber diameter from about 0.5 μm to about 5 μm. The fiber mat facer may also include a binder to bond together the non-woven web of fibers into the fiber mat. The binder may include a water repellant additive. The binder and/or fiber mat facer may further include an additive that enhances the opacity of the fiber mat facer. The fiber mat facer may also include a paint applied to an outer surface of the facer. The paint may include an additive that enhances the visual appeal of the facer and/or ceiling panel. | 01-30-2014 |
20150064392 | BLENDED THERMOPLASTIC AND THERMOSET MATERIALS AND METHODS - Structural panels and methods of making composite material for such structural panels may include applying a resin to a nonwoven fibrous web, where the nonwoven fibrous web includes a combination of glass fibers and polymer fibers. The web may be dried at a first stage temperature at or below a curing temperature of the resin for a time sufficient to substantially dry but not substantially cure the resin. The web may be laminated at a second stage temperature sufficient to fully cure the resin to produce a composite material. The second stage temperature may be above the melting point of the polymer fibers, and the resin may cause the composite material to retain a substantially rigid shape upon completion of the laminating operation. | 03-05-2015 |
20150214538 | GLASS-FIBER CONTAINING COMPOSITE MATERIALS FOR ALKALI METAL-BASED BATTERIES AND METHODS OF MAKING - Glass-fiber composites are described that include a substrate containing glass fibers and particles in contact with the glass fiber substrate. The particles may include an alkali-metal containing compound. In addition, batteries are described with an anode, a cathode, and an electrolyte. The cathode may include alkali-metal containing nanoparticles in contact with glass fibers. Described are methods of making a glass-fiber composite. The methods may include the steps of forming a wet laid non-woven glass fiber substrate, and contacting alkali-metal containing particles on the substrate. | 07-30-2015 |
20150236338 | GLASS-FIBER CONTAINING COMPOSITE MATERIALS FOR ALKALI METAL-BASED BATTERIES AND METHODS OF MAKING - Glass-fiber composites are described that include a substrate containing glass fibers and particles in contact with the glass fiber substrate. The particles may include an alkali-metal containing compound. In addition, batteries are described with an anode, a cathode, and an electrolyte. The cathode may include alkali-metal containing nanoparticles in contact with glass fibers. Also describe are methods of making a glass-fiber composite. The methods may include the steps of forming a wet laid non-woven glass fiber substrate, and contacting alkali-metal containing particles on the substrate. | 08-20-2015 |
Patent application number | Description | Published |
20090110702 | Mesothelin Vaccines and Model Systems and Control of Tumors - Mesothelin can be used as an immunotherapeutic target. It induces a cytolytic T cell response. Portions of mesothelin which induce such responses are identified. Vaccines can be either polynucleotide- or polypeptide-based. Carriers for raising a cytolytic T cell response include bacteria and viruses. A mouse model for testing vaccines and other anti-tumor therapeutics and prophylactics comprises a strongly mesothelin-expressing, transformed peritoneal cell line. | 04-30-2009 |
20090165152 | Mesothelin Vaccines and Model Systems - Mesothelin can be used as an immunotherapeutic target. It induces a cytolytic T cell response. Portions of mesothelin which induce such responses are identified. Vaccines can be either polynucleotide- or polypeptide-based. Carriers for raising a cytolytic T cell response include bacteria and viruses. A mouse model for testing vaccines and other anti-tumor therapeutics and prophylactics comprises a strongly mesothelin-expressing, transformed peritoneal cell line. | 06-25-2009 |
20120076752 | Mesothelin Vaccines and Model Systems - Mesothelin can be used as an immunotherapeutic target. It induces a cytolytic T cell response. Portions of mesothelin which induce such responses are identified. Vaccines can be either polynucleotide- or polypeptide-based. Carriers for raising a cytolytic T cell response include bacteria and viruses. A mouse model for testing vaccines and other anti-tumor therapeutics and prophylactics comprises a strongly mesothelin-expressing, transformed peritoneal cell line. | 03-29-2012 |
20140050751 | Mesothelin Vaccines and Model Systems - Mesothelin can be used as an immunotherapeutic target. It induces a cytolytic T cell response. Portions of mesothelin which induce such responses are identified. Vaccines can be either polynucleotide- or polypeptide-based. Carriers for raising a cytolytic T cell response include bacteria and viruses. A mouse model for testing vaccines and other anti-tumor therapeutics and prophylactics comprises a strongly mesothelin-expressing, transformed peritoneal cell line. | 02-20-2014 |
Patent application number | Description | Published |
20130271857 | MAGNIFICATION SYSTEMS - A magnification system for magnifying a surface of a device is provided. The magnification system includes a magnifying lens having a ridge portion extending along one of the edges and securing means for securing the magnifying lens on or above the surface of the device. An example of such a device is a mobile phone. The securing means further includes a base adapted to mount to a surface of the device, an arm pivotally connected to the base with a first connector, a clamp including a channel therein for receiving and slidably holding the ridge portion of the magnifying lens and a second connector for pivotally connecting the arm to the clamp. The second connector further includes a slider member having a groove and means for attaching the lens to the slider member. The slider member further includes a first pivotally connected part and a second pivotally connected part. The slider member moves along the groove and further is being attached to the first pivotally connected part. The second pivotally connected part is adapted to slide along a length of the arm and thereby allowing for adjustments to vertical position of the magnifying lens in relation to the surface being magnified. | 10-17-2013 |
20140222483 | SYSTEM AND METHOD FOR FACILITATING STRUCTURED MEETINGS - A system for facilitating organized and structured meetings of one or more users through a server. The system includes a processor and a memory unit. The memory unit stores data related to the assignment of meetings and the processor is operable to process a registration module for users, an event setup module for setting up an event, a meeting request module for sending meeting requests, and a meeting assignment module. The event setup module allows the user to set up an event and further allows creation of one or more sessions and list of categories for each session, furthermore to create rules based on the categories and then assign locations and schedule for each session. The meeting request module to allow submission of request for meetings during the session. The meeting assignment module to assign meetings between two registered users on the basis of the rules submitted under meeting request module. | 08-07-2014 |
20150211291 | FINGER PROTECTION DEVICE - A finger protection device for protecting the fingers of a person from getting impinged in the space created in between the hinged door and the doorframe is provided. The finger protection device is mounted on the hinge-side of a door. The finger protection device includes five elongated segments sequentially pivotally attached to one another along their long edges. The first elongated segment is attached to the inner edge of the doorframe and the fifth elongated segment is attached to the edge of the door. The length in combination of the first elongated segment and the second elongated segment is configured to match the length in combination of the third elongated segment and the fourth elongated segment, so as to force each of the elongated segments to fold until they lie flat against one another and further lie flat against the front face of the door, when the door is closed. | 07-30-2015 |