Abstract: The present invention refers to an article made of a multilayer composite material comprising a central element (I) arranged between a first and a second reinforcement layer (B) to form a structure (B)-(I)-(B), said central element (I) comprising: a first and a second structural layer (A) each comprising at least one mat of needle punched fibres of the thermoplastic and/or natural type or else a mat of expanded thermoplastic polymer, said structural layers (A) being impregnated with a thermosetting resin; a third reinforcement layer (B) arranged between said two structural layers (A), said first, second and third reinforcement layer (B) consisting of a fibrous material, comprising one or more types of fibres selected from the group consisting of glass fibres, natural fibres, carbon fibres, basalt fibres, kevlar fibres, aramid fibres or a mixture of such fibres.
Type:
Application
Filed:
October 31, 2011
Publication date:
September 18, 2014
Applicant:
INDUSTRIALESUD S.P.A.
Inventors:
Giuseppe Di Sante, Mario Biggio, Mario Di Paolantonio, Gianluca Giovine
Abstract: Included are food packaging materials and processes that are useful for commercial products to extend the freshness and preserve the integrity and shelf-life of packaged foods. Said food packaging materials utilize a low bioburden, biodegradable and/or compostable shock absorbing/cushioning nonwoven structure and some form or forms of an antimicrobial and/or antifungal agent consisting of silver or silver-based species that destroy microbes which would otherwise spoil the food. The shelf-life extension process involves silver-based antimicrobial agents that function to mitigate the spread of food spoilage pathogens when they come in contact with the said food packaging materials. Fluid absorbing or superabsorbent, capabilities may be incorporated in the structure to control excess fluids.
Type:
Grant
Filed:
May 3, 2012
Date of Patent:
September 9, 2014
Assignee:
Biovation II LLC
Inventors:
Kerem Durdag, Brian Pendleton, Robert Hamlyn, Valerie Gunn, Marc Etchells
Abstract: A textile applicator for application of a sanitizing and/or disinfecting solution to a surface. The applicator incorporates a plurality of direct spun polyester microfiber yarns to define a textile surface which does not bind or inactivate quaternary ammonium compounds, chlorine-based or peracetic and/or other peroxygen based sanitizing and/or disinfecting agents. Thus, the sanitizing and/or disinfecting agent is readily released to the surface being treated without any requirement of pre-loading surface binding sites or applying a charge-modifying surface treatment.
Type:
Grant
Filed:
February 14, 2012
Date of Patent:
August 19, 2014
Assignee:
Tietex International, Ltd
Inventors:
Martin Wildeman, David R. Harry, Jr., Michelis Hardegree, Lori S. Sears
Abstract: Disclosed is an arc flash protection, multiple-use nonwoven fabric structure comprising one or more layers having fire resistant properties. The fabric structure has an arc flash facing nonwoven surface, and a nonwoven part of the fabric structure comprises non-inherent, and/or inherently fire resistant fibers, said fibers being mechanically, chemically, or thermally bonded, whereby the fabric structure has a minimum Arc Thermal Protection Value (ATPV) to fabric basis weight ratio of 250 cal/g, preferably greater than 350 cal/g, more preferably greater than 500 cal/g, when measured in accordance with ASTM F1959—Standard Test Method for Determining the Arc Rating of Materials for Clothing, and the fabric structure maintains said ATPV to fabric basis weight ratio through at least 25 washing cycles when washed according to AATCC Method 135 (3, IV, A iii).
Type:
Application
Filed:
March 26, 2014
Publication date:
July 24, 2014
Applicant:
NORAFIN INDUSTRIES GMBH
Inventors:
Stuart Smith, Marc Jolly, Jos van Hattum, Andre Lang, Bettina B. Sorensen
Abstract: An impact dissipating fabric system includes a first non-woven fabric layer, and a second non-woven fabric layer disposed on one another and coupled together using a lamination film or a resin. In an alternative embodiment, a woven fabric layer may be disposed on either one or both non-woven fabric layers. In yet a further alternative embodiment, and elastomer coating disposed on at least one of the exposed major surfaces of the fabric layer after the fabric layers are coupled to one another.
Abstract: An anti-vandalism fabric having at least one thread intertwined with itself forming a mesh, the thread in turn being formed by a bundle of between 3 and 14 filaments or a combination of filaments and yarns not plaited with one another, of which at least 3 are metal filaments, the metal filaments of the bundle having a diameter between 0.05 mm and 0.09 mm. The fabric can include more than one mesh. In one variant the mesh or meshes are embedded in a panel of non woven fabric.
Abstract: This invention relates to high surface area materials, such as nanoparticles, that are coated with metal ions. These modified nanoparticles have active sites that bind various gases and/or odorous compounds, thereby removing these compounds from a medium such as air or water. Metal ions are adsorbed onto the surface of the nanoparticle and bound strongly to the surface. By selection of the metal ion, specific gaseous compounds and/or odorous compounds can be targeted and removed efficiently and effectively from both aqueous phase and from the air. The modified nanoparticles are useful in numerous article of manufacture for industrial and consumer use.
Abstract: A method for producing an elastically stretchable laminate having at least three layers, the method including the steps of: a) producing a first laminate having a first non-elastic fibrous nonwoven web and an elastic film; b) activating the first laminate by incremental stretching in at least one activation direction to render the first laminate elastically stretchable; c) stretching the activated first laminate to 10-200% in the activation direction; and d) laminating the stretched first laminate to a second non-elastic nonwoven web. An elastically stretchable laminate produced in accordance with the method is also disclosed.
Type:
Grant
Filed:
May 12, 2006
Date of Patent:
June 3, 2014
Assignee:
SCA Hygiene Products AB
Inventors:
Margareta Wennerbäck, Jan Wästlund-Karlsson, Elisabeth Lakso
Abstract: An adhesive tape (1) made of silicone is intended for medical applications. The tape (1) has a sheet material (12) based on nonwoven fibers, coated on an internal face (12a) intended to be in contact with the skin, with a barrier membrane (14) which adheres to the sheet material, based on crosslinked silicone polymer, and with a layer (16) of atraumatic and biocompatible silicone adhesive gel, and on an external face (12b), with a layer (18) of a nonstick and waterproof polymer based on a fluorosilicone or fluorocarbon polymer.
Abstract: Building board for use as a carrier for a surface cladding of ceramic tiles, a stucco, or a thin-layer trowel mortar, on or in buildings, in which on a moisture-resistant and moisture-sealed foam-material core layer, there is glued on both sides a water-resistant paper web or thin plastic web, onto which webs in each case a web of nonwoven fabric or of a knitted or loom-knitted woven fabric is glued.
Abstract: A nonwoven web of fibers that have a number average diameter of less than 1 micron. The web can have a Poisson Ratio of less than about 0.8, a solidity of at least about 20%, a basis weight of at least about 1 gsm, and a thickness of at least 1 micrometer.
Type:
Grant
Filed:
July 1, 2009
Date of Patent:
April 15, 2014
Assignee:
E I du Pont de Nemours and Company
Inventors:
Pankaj Arora, Guanghui Chen, Simon Frisk, David Keith Graham, Jr., Robert Anthony Marin, Hageun Suh
Abstract: An anti-slip structure includes a thermosetting plastic layer, a first thermoplastic elastomer layer, a first fabric layer sandwiched between the thermosetting plastic layer and the first thermoplastic elastomer layer in such a manner that the thermosetting plastic layer is partially embedded in the first fabric layer, a second thermoplastic elastomer layer, and a second fabric layer sandwiched between the first thermoplastic elastomer layer and the second thermoplastic elastomer layer.
Abstract: A material for use as a wound dressing, the material being in the form of a roll and comprising gel forming fibers and the material having lines of longitudinal stitching.
Abstract: Absorbent sheet materials are produced from a coformed blend of absorbent fibers and extensible meltblown polymer fibers. Laminates of these extensible coforms are prepared with layers of extensible polymeric fibers or filaments. The absorbent sheet materials are incrementally stretched to improve softness and drape.
Abstract: A nonwoven for use in a thermal liner for protective apparel includes 1-45 wt % of a first inherently heat resistant fiber excluding an aramid, and a balance of a second heat resistant fiber. The nonwoven excludes wool and has a thickness less than 3 mm and a basis weight of less than 2.9 osy (100 gsm). In another embodiment, the insulating layer for protective apparel includes a nonwoven including an inherently flame resistant fiber and fibers being inherently resistant to moisture absorption. The inherently flame resistant fiber is different from said inherently resistant to moisture absorption fiber. The nonwoven has an equivalent or better thermal protective performance (TPP) and a lower basis weight than an industry standard nonwoven consisting of a nonwoven of para-aramids or meta-aramids or a blend of both.
Abstract: A nonwoven fabric comprising a meltspun fibre of a lignin compound. Also claimed a laminated fabric comprising the nonwoven fabric, a nonwoven fabric product comprising the nonwoven fabric, a structured multicomponent fibre comprising a lignin compound, a web comprising a meltspun fibre of a lignin compound and a method of producing a nonwoven fabric by forming a web of meltspun fibre comprising a lignin compound and bonding at least a portion of the fibre in the web to form the nonwoven fabric.
Type:
Application
Filed:
October 19, 2011
Publication date:
March 27, 2014
Applicant:
FITESA NONWOVEN, INC.
Inventors:
David Dudley Newkirk, Juergen Friedrich Rudolph, Helmut Hartl
Abstract: Filter media are described. The filter media may include multiple layers. In some embodiments, the filter media include a nanofiber layer adhered to another layer. In some embodiments, the layer to which the nanofiber layer is adhered is formed of multiple fiber types (e.g., fibers that give rise to structures having different air permeabilities and/or pressure drops). In some embodiments, the nanofiber layer is adhered to a single-phase or a multi-phase layer. In some embodiments, the nanofiber layer is manufactured from a meltblown process. The filter media may be designed to have advantageous properties including, in some cases, a high dust particle capture efficiency and/or a high dust holding capacity.
Abstract: Ballistic resistant materials and articles formed from fiber/tape plies that incorporate multiple different fiber or tape types within a single ply. The different fiber or tape types are physically dissimilar but may be chemically different or substantially chemically similar.
Abstract: Disclosed is a multilayer fabric and a method of forming a multilayer fabric comprising one or more facing layers and one or more elastic layers adjacent to or sandwiched there between, the one or more facing layers comprising a polypropylene; and a propylene-?-olefin elastomer having and an MFR of less than 80 dg/min; wherein the facing layer is extensible and non-elastic and has a Handle-O-Meter value of less than 60 g and a 1% Secant Flexural Modulus of less than 1000 MPa. In certain embodiments, polyethylenes are absent from the facing layer(s).
Type:
Grant
Filed:
November 14, 2008
Date of Patent:
March 4, 2014
Assignee:
ExxonMobil Chemical Patents Inc.
Inventors:
Narayanaswami Raja Dharmarajan, Prasadarao Meka
Abstract: One embodiment of the present invention is a nonwoven fabric comprising a support web and a fibrous barrier web, having a hydrohead of at least about 145 cm and a Frazier permeability of at least about 0.3 m3/m2-min.
Abstract: The present invention provides a heat-resistant nonwoven fabric wherein the nonwoven fabric is formed from a poly(phenylene sulfide) fiber, and 30% by weight or more of the poly(phenylene sulfide) fiber has a crystallinity of 25 to 50%. Moreover, the properties of the heat-resistant nonwoven fabric can be further improved by making the nonwoven fabric have a multilayer structure in which layers composed of a poly(phenylene sulfide) filamentary fiber and layers composed of a poly(phenylene sulfide) fine fiber are stacked and integrated.
Abstract: The invention relates to a fixable nonwoven interlining material for use in the textile industry, comprising at least one melt-spun fiber layer and at least one additional fibrous material layer, the fixable interlining material being provided with an adhesive substance at least in partial regions. A particularly high elasticity of the fixable interlining material is achieved by the fact that the melt-spun fibers are composed of an elastic fibrous material, and the at least one layer of fibrous material is composed of staple fibers, and the at least one elastic melt-spun fiber layer and the at least one staple fiber layer are laid one on top of the other in the form of a flat unbonded fiber fabric, and are subsequently bonded by use of a bonding step known as such.
Type:
Grant
Filed:
April 20, 2006
Date of Patent:
February 18, 2014
Assignee:
Carl Freudenberg KG
Inventors:
Michael Kalbe, Oliver Staudenmayer, Manfred Jöst, Peter Rudek
Abstract: A continuous filament non-woven web is disclosed, wherein filaments of the web include an expandable thermoplastic material. Mattings fabricated from the continuous filament non-woven web are also disclosed. The web or matting can be used in sealing applications as it can be cut into desired dimensions and inserted into a cavity. The web or matting allows for introduction and drainage of further fluids in and from the cavity. The extendable thermoplastic material can be activated and foamed to fill a part of or the entire cavity. The sealing can prevent air, water or noise from intruding into the cavity and a space behind that cavity.
Type:
Application
Filed:
August 13, 2012
Publication date:
February 13, 2014
Applicant:
SIKA TECHNOLOGY AG
Inventors:
Thomas Sam PILLARS, Patricia Heidtman, Frank Hoefflin, Eric R. Medaris, John I. Hanley, IV
Abstract: An elastic laminate sheet with excellent elasticity while maintaining softness and favorable appearance including surface feel and the like, an article containing this elastic laminate sheet, a laminate sheet where a high elasticity laminate portion is the elastic laminate sheet, and an article containing the laminate sheet.
Abstract: The present invention relates to an EMF-screened plastic-organic sheet hybrid structural component, preferably a battery housing, and to its use in motor vehicles, preferably in electrically powered motor vehicles or hybrid motor vehicles, the abbreviation EMF meaning electromagnetic field(s).
Abstract: A device or method to prevent penetration of oil and petroleum products while allowing high water flow rate is provided. Such device or method is beneficial in controlling the contamination of surrounding soil from accidental leak of hydrocarbons such as oil and other petroleum products from equipment or storage vessels containing such materials. The containment systems equipped with these devices will allow the rain water to flow through while providing barrier to oil and petroleum products.
Type:
Application
Filed:
June 18, 2012
Publication date:
December 19, 2013
Inventors:
Rakesh Kumar Gupta, Daniel Parker, Branden Michael Baer, Thomas Russell Downs
Abstract: A protective cover includes a textile layer and an air permeable, moisture-vapor-transmissive, expanded polytetrafluoroethylene membrane layer attached to said textile layer, the cover having an MVTR rating of at least 4000 g/m2/day.
Type:
Application
Filed:
July 7, 2006
Publication date:
December 12, 2013
Inventors:
Clare R. King, Vishal Bansal, Leo J. Crotty, JR.
Abstract: A polyolefin-based antistatic fiber, wherein a polyethylene resin composition containing polyethylene resin (A) obtained using a metallocene catalyst and high molecular antistatic agent (B) forms a fiber surface, and the total amount (at 90° C. for 30 minutes) of volatile organic compounds having up to 20 carbon atoms is 10 ug/g or less. The polyolefin-based antistatic fiber may be in the form of a sheath-core type conjugate fiber in which the polyolefin resin composition forms the sheath. A nonwoven fabric formed from the polyolefin-based antistatic fiber, preferably having a defined surface resistance value, as well as a composite nonwoven fabric and formed body obtained using the nonwoven fabric are further disclosed.
Abstract: The present invention relates to a method of producing a multilayer component comprising the following steps: providing a mat-like multilayer structure which comprises at least two outer layers and a core layer, the core layer being arranged between the two outer layers, the core layer comprising a fibre tangle, which contains a binder material and a reinforcing fibre material, a melting point of the binder material being lower than a melting point of the reinforcing fibre material, placing the multilayer structure in a press, heating the multilayer structure in the press with exposure to pressure, such that the binder material melts, while the reinforcing fibre material retains its fibre structure, resulting in formation of a semi-finished product, lofting the semi-finished product, processing the semi-finished product to yield the multilayer component and cooling the component.
Abstract: Novel fibrous structures that contain filaments, and optionally, solid additives, such as fibers, for example wood pulp fibers, sanitary tissue products comprising such fibrous structures, and methods for making such fibrous structures and/or sanitary tissue products are provided.
Type:
Application
Filed:
May 8, 2013
Publication date:
November 14, 2013
Applicant:
The Procter & Gamble Company
Inventors:
Steven Lee BARNHOLTZ, Michael Donald SUER, Christopher Michael YOUNG, Paul Dennis TROKHAN, Mattias SCHMIDT
Abstract: Disclosed are food packaging materials and processes that are useful for commercial products to extend the freshness and preserve the integrity and shelf-life of packaged foods. Said food packaging materials utilize a low bioburden, biodegradable and/or compostable shock absorbing/cushioning nonwoven structure and some form or forms of an antimicrobial and/or antifungal agent consisting of silver or silver-based species that destroy microbes which would otherwise spoil the food. The shelf-life extension process involves silver-based antimicrobial agents that function to mitigate the spread of food spoilage pathogens when they come in contact with the said food packaging materials. Fluid absorbing or superabsorbent, capabilities may be incorporated in the structure to control excess fluids.
Type:
Application
Filed:
May 3, 2012
Publication date:
November 7, 2013
Inventors:
Kerem Durdag, Brian Pendleton, Robert Hamlyn, Valerie Gunn
Abstract: A fiber reinforced thermoplastic composite having an improved combination of flexural, impact, and heat distortion characteristics. The composite comprises a fiber reinforced thermoplastic core containing fibers bonded together with a first thermoplastic resin in which the core has a first surface and a second surface and at least one first skin applied to the first surface. The first skin comprises one or more bi-directional continuous fiber tapes having a plurality of continuous fibers bonded together with one or more thermoplastic resins. The fibers in each first skin are arranged in a first and a second direction, with the fibers in each direction being unidirectionally oriented within the skin. Bi-directional orientation of the continuous fiber tapes is present in at least one of the tapes, or is achieved through the use of two or more tapes having unidirectional continuous fibers.
Type:
Grant
Filed:
December 14, 2007
Date of Patent:
October 29, 2013
Assignee:
Hanwha Azdel, Inc.
Inventors:
Venkat Raghavendran, Gary Francis Smith
Abstract: Insulation and method for making it which bonds fiberfill padding to a membrane is disclosed. Moisture along with heat is transferred from the user of the insulated product to the insulation. The membrane allows the transfer of this moisture to the surrounding air. A novel way of binding polyester padding to a polyester membrane using polyurethane as the adhesive is accomplished by using a solvent to melt the polyurethane.
Type:
Application
Filed:
April 24, 2012
Publication date:
October 24, 2013
Applicant:
PINNECO RESEARCH LIMITED
Inventors:
Ming Wai Anderson Lee, Adelbert Ming Pak Lee
Abstract: Disclosed herein is a flooring underlayment membrane, and associated methods of manufacturing and installing such a membrane, comprising upper and lower nonwoven fiber layers. In one embodiment, the flooring underlayment membrane constructed as disclosed herein may comprise a first nonwoven fiber material, and a second nonwoven fiber material and at least one layer of extrudable thermoplastic resin disposed between and bonding the first and second nonwoven fiber materials.
Type:
Grant
Filed:
December 29, 2008
Date of Patent:
September 17, 2013
Assignee:
Building Materials Investment Corporation
Inventors:
Daniel LaVietes, David Gladden, Song-Ping Dai
Abstract: An exemplary sheetlike insulation material precursor and an exemplary insulation material are disclosed that can feature a particularly high thermal conductivity. The insulation material precursor can be characterized in that a layer of resin on each of two outer sides of a core laminate of interconnected polyester nonwovens and a polyester film is at the B-stage and has a weight fraction of at least 5% of boron nitride.
Abstract: A disposable absorbent article includes an absorbent mat provided between a liquid-permeable top sheet and a liquid-impermeable back sheet. Herein, the absorbent mat includes a sheet-like water-absorbent layer that contains a water-absorbent resin powder but that does not contain pulp fibers, and a fiber assembly layer that contains both the water-absorbent resin powder and the pulp fibers, the sheet-like water-absorbent layer and the fiber assembly layer arranged sequentially in this order from a top sheet side. The fiber assembly layer includes a fiber presence region in which both the pulp fibers and the water-absorbent resin powder are present, and a fiber absence region in which both the pulp fibers and the water-absorbent resin powder are absent, the fiber presence region and the fiber absence region formed to be adjacent with each other.
Abstract: A laminate with superior thermal conductivity, heat resistance, drill workability, and fire retardancy is provided. In a prepreg obtained by impregnating a woven or nonwoven fabric base with a thermosetting resin composition, the thermosetting resin composition contains 80 to 200 parts by volume of an inorganic filler per 100 parts by volume of a thermosetting resin, the inorganic filler contains (A) gibbsite type aluminum hydroxide particles having an average particle diameter (D50) of 2 to 15 ?m and (B) magnesium oxide having an average particle diameter (D50) of 0.5 to 15 ?m, and a compounding ratio (volume ratio) of the gibbsite type aluminum hydroxide particles (A) to the magnesium oxide (B) is 1:0.3 to 3.
Abstract: A thermally adhesive laminated nonwoven fabric that is a laminated nonwoven fabric in which nonwoven fabrics of the following (a) layer, (b) layer and (c) layer are integrated by heat contact bonding: (a) layer having at least one filament yarn nonwoven fabric layer composed of a thermoplastic resin; (b) layer having at least one extremely fine yarn nonwoven fabric layer composed of the same type of thermoplastic resin as that of the (a) layer; and (c) layer having at least one composite filament yarn nonwoven fabric layer composed of a thermoplastic resin, and that satisfies the following (1) and (2): (1) a difference between the melting point of the yarn forming the nonwoven fabric of the (a) layer and that of a yarn forming the nonwoven fabric of the (b) layer is 30° C.
Abstract: The forging-reinforced composite constructed of a plurality of different kinds of materials, which have compatible polymers comprising crystalline and glass phases at room temperature for the matrices, is a composite, wherein, by being forged in a layer-separated state in which each of the different kinds of materials forms micron-sized fibrous layers that crossed and intermingled three-dimensionally with each other and the arrangement of the crystals in the crystalline phases configuring the matrices having a disordered orientation without anisotropy in a variety of directions, the inherent-properties of the material of each layer are complementarily reinforced. A mixed nonwoven fabric wherein microfibers are crossed and intermingled two- or three-dimensionally with each other is manufactured and heated under pressure at or above the melting point of the polymers to manufacture compact blocks wherein the microfibers are welded. Then, the compact blocks are forged at a crystallization temperature.
Abstract: The present invention provides high strength nonwoven wipe materials and the process of making the materials. The high strength nonwoven wipe materials contain cellulosic fibers, synthetic fibers, or mixtures thereof, with bicomponent fibers and optionally, a binder. The present invention provides a high strength, high elongation, reduced stiffness nonwoven wipe material with superior tensile strength.
Type:
Grant
Filed:
February 4, 2011
Date of Patent:
August 6, 2013
Assignee:
Buckeye Technologies Inc.
Inventors:
Jeffrey Scott Hurley, Brian E. Boehmer, Alan Jeffrey Campbell, Jerry Michael Moore, Douglas William Vercauteren, Heather Fielder Horton, Barry George Burgess
Abstract: A helical textile having a substantially uniform thickness from ID to OD having circumferential warp fibers; non-interlaced radially aligned weft fibers having fiber lengths that may vary with the textile diameter to maintain constant textile thickness, the warp fibers and weft fibers not interlaced together; and non-reinforcing binding yarns securing the warp fibers to the weft fibers, thereby forming a helical textile.
Abstract: Laminate material having a first liquid-permeable material layer and discretely-arranged material pieces of a second liquid-permeable material, wherein the material layer and the discrete material pieces are joined internally. The laminate material also has a second liquid-permeable material layer joined to the first liquid-permeable material layer and the discretely-arranged material pieces.
Abstract: A method of preparing a reinforcing structure for use in manufacture a pultruded part where the reinforcing structure is pulled through a pultrusion die in a continuous longitudinal pull direction. The method includes arranging a plurality of first reinforcing fibers in a transverse direction and attaching a permeable transport web of staple fibers to the first reinforcing fibers such that the portion of the first reinforcing fibers oriented in the direction transverse comprises at least 30% of a volume of materials comprising the reinforcing structure.
Abstract: An acoustic composite containing at least a first acoustically coupled non-woven composite and a second acoustically coupled non-woven composite, each acoustically coupled non-woven composite containing a non-woven layer and a facing layer. The non-woven layer contains a plurality of binder fibers and a plurality of bulking fibers and has a binder zone and a bulking zone. The facing layer of the second acoustically coupled non-woven composite is adjacent the second surface of the non-woven layer of the first acoustically coupled non-woven composite.
Type:
Application
Filed:
November 9, 2011
Publication date:
May 9, 2013
Inventors:
Dale S. Kitchen, Pradipkumar Bahukudumbi, Gregory Thompson, Mark T. Mapes
Abstract: A one-piece fiber reinforcement for a reinforced polymer is described. In an embodiment, a one-piece reinforcement is fabricated by first assembling an interior randomly oriented fiber layer between two exterior aligned fiber layers. With all layers in face to face contact, a preselected number of fibers from the aligned layer is conveyed out of its aligned layer and threaded into at least the random fiber layer so that the conveyed fibers engage and mechanically and frictionally interfere with the random fibers. The fibers may be conveyed from one aligned layer to the other for yet greater interference. The interfering fibers serve to secure and interlock the layers together, producing a one-piece reinforcement which, when impregnated with a polymer precursor, shaped and cured may be incorporated in a polymer reinforced composite article.
Type:
Application
Filed:
November 2, 2011
Publication date:
May 2, 2013
Applicant:
GM GLOBAL TECHNOLOGY OPERATIONS LLC
Inventors:
Elisabeth J. Berger, John N. Owens, Chen-Shih Wang, Hamid G. Kia
Abstract: An image transfer product such as an offset printing blanket or sleeve is provided which comprises a very thin printing surface layer in combination with a smooth image reinforcement layer comprising a polymeric film, a fabric, or a polymer-coated fabric. The thin printing surface layer has a thickness between about 0.001 to about 0.012 inches (about 0.025 to about 0.3 mm). The image transfer product is more efficiently manufactured due to reduced solvent usage and reduced number of coating passes, and in use, exhibits uniform feed, web control, and registration characteristics.
Type:
Grant
Filed:
November 21, 2008
Date of Patent:
April 2, 2013
Assignee:
Day International, Inc.
Inventors:
Joseph L. Byers, W. Toriran Flint, Samuel R. Shuman
Abstract: The present invention is directed to a high surface area fibers and an improved filter composite media made from the same. More specifically, the composite media preferably comprises a winged-fiber layer having high surface area fibers for increased absorption and strength and a meltblown layer for additional filtration. In one preferred embodiment the high surface area fibers have a middle region with a plurality of projections that define a plurality of channels, which increases the surface area of the fiber. In one preferred embodiment, the high surface area fiber has a specific surface area of about 140,000 cm2/g or higher and a denier of about 1.0 to about 2.0. The high surface area fiber of the present invention is made using a bicomponent extrusion process using a thermoplastic polymer and a dissolvable sheath.
Abstract: An insulation batt for use in building structures is presented. The insulation batt includes an air flow resistive layer of material provided between portions of insulating material.
Type:
Application
Filed:
September 10, 2012
Publication date:
March 28, 2013
Inventors:
Brandon Dillan Tinianov, Kent Severin Whiting, Frank Warren Bishop, JR.