Abstract: A fibre-reinforced plastic material with a matrix material and first fibres is provided. The first fibres are embedded in the matrix material. Further, filling pieces are embedded in the matrix material. The filling pieces are arranged between the first fibres to prevent crack propagation in the fibre-reinforced plastic material.
Type:
Application
Filed:
December 1, 2010
Publication date:
June 9, 2011
Inventors:
Erik Grove-Nielsen, Martin Winther-Jensen
Abstract: A composition for preparing a resin is provided. The composition includes a brominated epoxy resin, a urethane-modified copolyester, a curing agent and a solvent. A prepreg is also provided. The prepreg includes a glass fabric and a resin layer on the glass fabric. The resin layer is made from the foregoing resin.
Abstract: An composite material is disclosed, which includes carbon fibrous structures which are capable of being included in a relatively large amount in the composite material, and which are capable of improving the physical properties, such as electric, mechanical, or thermal properties. The carbon fibrous structure comprises (a) carbon fibrous structures each of which comprises a three dimensional network of carbon fibers, each of the carbon fibers having an outside diameter of 15-100 nm, wherein the carbon fibrous structure further comprises a granular part, at which the carbon fibers are bound in a state that the carbon fibers are extended outwardly therefrom, and wherein the granular part is produced in a growth process of the carbon fibers, and (b) an material other than the carbon fibrous structures, wherein the amount of carbon fibrous structures added is more than 30% and not more than 100% by weight of the total weight of the composite.
Abstract: A fibre-reinforced plastic material with a matrix material and fibres embedded in the matrix material is provided. Fibre spacers are embedded in the matrix material between the fibres to avoid direct fibre-to-fibre contacts.
Type:
Application
Filed:
December 1, 2010
Publication date:
June 2, 2011
Inventors:
Erik Grove-Nielsen, Martin Winther-Jensen
Abstract: A fibre-reinforced plastic material with a matrix material and fibres embedded in the matrix material is provided. A surface of the fibres has at least one groove extending a bonding surface of the fibres for an enhanced adhesion of the matrix material.
Type:
Application
Filed:
December 1, 2010
Publication date:
June 2, 2011
Inventors:
Erik Grove-Nielsen, Martin Winther-Jensen
Abstract: According to the present invention, a method for manufacturing a prepreg sheet includes steps of (A) forming a resin layer 61 on a surface of a supporter 3, (B) winding a reinforcing yarn 10 around the resin layer 61, and (C) embedding at least a part of the reinforcing yarn 10 in the resin layer 61. Preferably, in step (C), the surface of the supporter 3 is relatively moved towards the reinforcing yarn 10.
Abstract: A carbon fiber composite sheet obtained by combining a carbon fiber aggregate with a thermosetting resin component selected from the group consisting of thermosetting silicone-based gel components, thermosetting epoxy resin components and thermosetting silicone resin components, and then curing the thermosetting resin component, the carbon fiber composite sheet having crystallite sizes of at least 5 nm in the direction of growth of the hexagonal mesh surface of the carbon fibers composing the carbon fiber aggregate, and the carbon fiber composite sheet having a thermal conductivity of at least 2 W/(m·K).
Abstract: A layered panel structure including first and second layers formed, respectively, of (a) non-thermoformable, and (b) thermoformable, fiber-strand-reinforced resin, materials, having therebetween a bonding interface formed by resin drawn from the second layer.
Abstract: The present invention provides a resin composition comprising a thermoplastic resin (A), an inorganic compound having a volume resistance of less than about 10?3 ?·m and relative permeability of more than about 5,000 (B) and fiber filler (C). The resin composition of the present invention can have high impact strength and high electrical conductivity, and high electromagnetic interference (EMI) and radio frequency interference (RFI) shielding properties. The resin composition of the present invention can accordingly have multiple functions and can be used for electrical/electronic devices.
Abstract: Fibrous structures that exhibit low dry lint scores, and more particularly fibrous structures containing filaments and solid additives that exhibit low dry lint scores and methods for making such fibrous structures are provided.
Type:
Application
Filed:
November 2, 2010
Publication date:
May 5, 2011
Inventors:
Steven Lee Barnholtz, Michael Donald Suer, Paul Dennis Trokhan
Abstract: Polyamide compositions filled with fibers have good mechanical and rheological properties, the polyamide having a high fluidity in molten phase and the fibers, in particular glass fibers, being well aligned at both the surface and the core of shaped articles injection molded from such compositions.
Type:
Grant
Filed:
October 17, 2008
Date of Patent:
April 26, 2011
Assignee:
Rhodia Operations
Inventors:
Lise Trouillet-Fonti, Marco Amici, Christophe Lapierre, Gilles Robert
Abstract: A prepreg containing a carbon fiber [A] and a thermosetting resin [B], and in addition, satisfying at least one of the following (1) and (2). (1) a thermoplastic resin particle or fiber [C] and a conductive particle or fiber [D] are contained, and weight ratio expressed by [compounding amount of [C] (parts by weight)]/[compounding amount of [D] (parts by weight)] is 1 to 1000. (2) a conductive particle or fiber of which thermoplastic resin nucleus or core is coated with a conductive substance [E] is contained.
Abstract: A rotary fibrous insulation product that is soft to the touch is provided. The fibrous insulation product is formed of glass fibers having an average fiber diameter less than about 5.5 microns. The low fiber diameter helps to impart a soft feel to the insulation product. Additionally, the insulation product contains an oil with a flashpoint of at least 580° F. in an amount up to 5% by weight of the insulation product. The insulation product may contain up to about 85% by weight recycled glass. In exemplary embodiments, the binder is a low-formaldehyde, polyacrylic based binder. The combination of the low fiber diameter, the binder, and the oil create a synergistic effect to produce an unexpectedly soft insulation product. The insulation product is useful in a variety of thermal applications, such as in basements, in attics, and in walls of residential dwellings.
Type:
Application
Filed:
April 13, 2010
Publication date:
April 21, 2011
Inventors:
David R. Mirth, William M. Babbitt, Liang Chen, Jesus M. Hernandez-Torres
Abstract: The subject invention concerns nanorods, compositions and substrates comprising nanorods, and methods of making and using nanorods and nanorod compositions and substrates. In one embodiment, the nanorod is composed of Zinc oxide (ZnO). In a further embodiment, a nanorod of the invention further comprises SiO2 or TiO2. In a specific embodiment, a nanorod of the invention is composed of ZnO coated with SiO2. Nanorods of the present invention are useful as an adhesion-resistant biomaterial capable of reducing viability in anchorage-dependent cells.
Type:
Application
Filed:
April 30, 2009
Publication date:
April 21, 2011
Inventors:
Tanmay P. Lele, Fan Ren, Benjamin George Keselowsky, Jiyeon Lee, Anand Gupte, Byung-Hwan Chu, Karl Zawoy
Abstract: A composite includes a matrix material and a unidirectional array of carbon nanotube-infused fibers disposed in a portion of the matrix material. An article includes this composite and a network of electrodes disposed about the periphery of the composite. The electrodes send and receive an electrical charge. Such an article is included in a system, along with sensing circuitry and a source for supplying current to the network of electrodes. Such a system is used in a method that includes subjecting the article to a load that causes a condition in the composite including strain, fatigue, damage, or cracks, and monitoring the location of the condition.
Type:
Application
Filed:
October 7, 2010
Publication date:
April 21, 2011
Applicant:
APPLIED NANOSTRUCTURED SOLUTIONS, LLC
Inventors:
Harry C. MALECKI, John Anthony HUGHES, Tushar K. SHAH
Abstract: A prepreg composite material that includes a fiber layer and a resin comprising a thermoset resin component, a curing agent and a fibrous micropulp. The micropulp component is an aramid fiber having a volume average length of from 0.01 to 100 micrometers. The prepreg is useful in composite panel construction for minimizing fluid permeation into the cured structure. This prepreg is particularly suitable for making honeycomb sandwich panels. Film adhesives, liquid and paste resins containing aramid fiber micropulp are also disclosed.
Abstract: The present invention provides a carbon fiber composite material comprising an elastomer and a carbon nanofiber dispersed in the elastomer, wherein the elastomer has an unsaturated bond or a group, having affinity to the carbon nanofiber. Also disclosed is a process for producing the carbon fiber composite material.
Abstract: The present invention relates to light weight composite materials which comprise a metallic layer and a polymeric layer, the polymeric layer containing a filled thermoplastic polymer which includes a thermoplastic polymer and a metallic fiber. The composite materials of the present invention may be formed using conventional stamping equipment at ambient temperatures. Composite materials of the present invention may also be capable of being welded to other metal materials using a resistance welding process such as resistance spot welding.
Abstract: A method for making a pre-impregnated composite material (prepreg) is provided. The prepreg can be cured to form composite parts that have high levels of damage tolerance. The matrix resin includes a thermoplastic particle component that is a blend of particles that have a melting point above the curing temperature and particles that have a melting point at or below the curing temperature.
Abstract: Improved single ply, water proof roof coverings having an extruded pressure sensitive rubber-based adhesive backing for attachment to a substrate such as the roof of a building or a transport vehicle, the adhesive consisting of polyisobutylene and at least one polymer comprising conjugated diene monomers.
Type:
Grant
Filed:
February 10, 2005
Date of Patent:
March 29, 2011
Assignee:
Building Materials Investment Corporation
Inventors:
Michael P. Naipawer, III, Anthony Ruffine
Abstract: An artificial leather having a suede appearance and colours within the grey-black range and high colour fastness comprising a microfibrous component and an elastomeric matrix; the microfibrous component consisting of polyester microfibres having a count of 0.01 to 0.50 dtex; the elastomeric matrix consisting of polyurethane consisting of soft and hard segments; the ratio between the elastomeric matrix and the microfibrous component ranging from 20/80 and 50/50 by mass; the microfibrous component containing carbon black pigment in a percentage of 0.05 to 2.00% by mass; the elastomeric matrix containing carbon black pigment in a percentage of 0 to 10% by weight; the carbon black always having an average dimension smaller than 0.4 microns. The average length of the tassel is between 200 and 500 microns. The soft segments consist of at least one polycarbonate diol selected from polyalkylene carbonate diols and at least one polyester diol.
Type:
Application
Filed:
December 3, 2008
Publication date:
March 24, 2011
Applicant:
ALCANTARA S.P.A.
Inventors:
Carmine Carlo Ammirati, Omar Teofrasti, Walter Cardinali
Abstract: An epoxy resin curable composition for a prepreg, comprising the following components (A) to (E): (A) a polyamide compound having a structure derived from an aromatic diamine including a phenolic hydroxyl group, the aromatic diamine having the phenolic hydroxyl group in a position adjacent to an amino group; (B) an epoxy resin; (C) an epoxy resin curing agent; (D) a filler; and (E) a solvent.
Abstract: Prepeg for manufacturing a fibre-reinforced composite material, the prepreg comprising a layer of dry fibres and a layer of resin material adhered to a surface of the layer of dry fibres, the resin material having a plurality of particles dispersed therein, the particles have an average particle size that is larger than the average fibre separation of the layer of dry fibres.
Type:
Application
Filed:
December 15, 2008
Publication date:
March 10, 2011
Applicant:
Gurit (UK) Ltd.
Inventors:
Nicholas Duncan Partington, Yves Jean Francois Didier
Abstract: A composite spacer operable to be mounted on a first component is disclosed herein, wherein compression loads associated with attaching the first component to some other structure are born by the composite spacer to limit compressive deformation of the first component. The composite spacer includes a first body formed of resin and defining an aperture extending along an axis. The composite spacer also includes a plurality of first fibers positioned in the first body about the aperture. Each of the first fibers extends substantially parallel to the axis and increases a compressive strength of the first body relative to the axial direction.
Abstract: An composite material is disclosed, which includes carbon fibrous structures which are capable of being included in a relatively large amount in the composite material, and which are capable of improving the physical properties, such as electric, mechanical, or thermal properties. The carbon fibrous structure comprises (a) carbon fibrous structures each of which comprises a three dimensional network of carbon fibers, each of the carbon fibers having an outside diameter of 15-100 nm, wherein the carbon fibrous structure further comprises a granular part, at which the carbon fibers are bound in a state that the carbon, fibers are extended outwardly therefrom, and wherein the granular part is produced in a growth process of the carbon fibers, and (b) an material other than the carbon fibrous structures, wherein the amount of carbon fibrous structures added is more than 30% and not more than 100% by weight of the total weight of the composite.
Type:
Application
Filed:
November 17, 2006
Publication date:
February 24, 2011
Applicants:
BUSSAN NANOTECH RESEARCH INSTITUTE INC., MITSUI & CO., LTD.
Abstract: Methods are provided for functionalizing nanoscale fibers and for making composite structures from these functionalized nanomaterials. The method includes contacting a network of nanoscale fibers with an oxidant to graft at least one epoxide group to at least a portion of the network of nanoscale fibers. A network of functionalized nanoscale fibers or buckypapers may include carbon nanotubes having a mean length of at least 1 mm and having an epoxide group grafted onto the nanotubes.
Type:
Application
Filed:
January 28, 2010
Publication date:
February 24, 2011
Applicant:
FLORIDA STATE UNIVERSITY RESEARCH FOUNDATION
Inventors:
Jianwen Bao, Zhiyong Liang, Ben Wang, Chun Zhang
Abstract: A prepreg is provided capable of being a composite material having suitable high heat resistance, impact resistance, and mechanical properties under high temperature and high humidity conditions. As the matrix resin, a composition including a specific epoxy resin component (A), a specific bifunctional epoxy resin (B), a specific tetrafunctional epoxy resin (C), and a specific aromatic amine compound (D) at specific proportions are used. Particularly, as the epoxy resin component (A), one obtained by mixing and heating a bifunctional epoxy resin (a1), a trifunctional epoxy resin (a2), a phenol compound (a3), and a specific polyamide resin (a4) is used so as to be able to solve the above-described problems.
Abstract: A self-healing composite material comprising a fibre-reinforced polymeric matrix, wherein the polymeric matrix comprises a thermosetting polymer and a thermoplastic polymer.
Abstract: A fiber-reinforced component is formed of a first composite member including a thermoplastic matrix with reinforcing fibers having a diameter and a length distributed therein in a selected orientation and a second composite member including a thermoplastic matrix with reinforcing fibers having a diameter and a length distributed therein in a selected orientation. The first composite member is bonded to the second composite member by a solid state bond along a predetermined joint path, such that an average volume fraction of the reinforcing fibers of the first composite member and the second composite member within the joint path is substantially the same as an average volume fraction of the reinforcing fibers of the first composite member and the second composite member within the remainder of the fiber-reinforced component.
Type:
Grant
Filed:
December 19, 2008
Date of Patent:
February 1, 2011
Assignee:
General Electric Company
Inventors:
Paul Stephen Manicke, Earl Claude Helder
Abstract: A glass chopped strand mat binder according to the invention can be supplied in an amount smaller than a conventional binder amount and can form a glass chopped strand mat having desired uniform strength. The invention is a glass chopped strand mat binder that includes a polyester resin powder (A) having a volume average particle diameter DV of 100 to 250 ?m, containing at most 20% by weight of particles with a volume based particle diameter of at least 300 ?m, and having a coefficient CV of variation of volume based particle diameter distribution of 0.1 to 30% as measured by the laser diffraction scattering method.
Abstract: There is provided a polyester fiber which has few defects such as voids due to catalyst particles, and low variation in physical properties and minimal fluff generation. The polyester fiber of the invention comprises laminar nanoparticles composed of a divalent metal and a phosphorus compound and having side lengths of 5-100 nm and an interlayer spacing of 1-5 nm. There are also provided a tire cord, tire, belt-reinforcing fiber material and belt, comprising the polyester fiber.
Type:
Application
Filed:
January 12, 2010
Publication date:
January 27, 2011
Applicant:
Teijin Fibers Limited
Inventors:
Shintaro Shimada, Junichi Togasaki, Fuyuki Terasaka, Seiji Ito
Abstract: According to one aspect of the present invention there is provided an acoustic laminate including: a first layer of viscoelastic acoustic barrier material; a sound absorbing/decoupling batt affixed to the first layer of viscoelastic acoustic barrier material, the batt at rest defining a batt plane; the batt including a plurality of batt fibers; the batt further including retaining fibers, wherein the batt fibers and/or retaining fibers are disposed perpendicular to the batt plane and having end portions thereof disposed at a batt surface, the end portions affixed to the viscoelastic barrier material so that either the first layer of viscoelastic acoustic barrier material or the sound absorbing/decoupling batt itself may be retained in spaced relation from a mounting surface when the laminate is so mounted, the retention being achieved in any orientation by bearing a mass load of the batt or first layer of viscoelastic material along the axis of the affixed batt fibers and/or retaining fibers.
Type:
Grant
Filed:
April 11, 2005
Date of Patent:
January 25, 2011
Inventors:
Philippe Pierre Marie Joseph Doneux, Bela Takacs
Abstract: An erosion system including a toughened resin for improving erosion resistance, the toughened resin including a resin and a toughening agent, and a support for retaining the toughened resin where at least one layer of the erosion system is applied to a component to provide from about a 50% increase to about a 400% increase in erosion resistance to the component per layer of the erosion system.
Type:
Grant
Filed:
March 28, 2008
Date of Patent:
January 25, 2011
Assignee:
General Electric Company
Inventors:
Stephen Craig Mitchell, Andrew J. Brizgis, Donald George Lachapelle, Warren Rosal Ronk
Abstract: The invention relates to a polyolefin film, in particular for an adhesive tape, which is monoaxially stretched in the longitudinal direction, characterized in that the film contains a mixture of an olefinic polymer and a polar non-olefinic polymer.
Abstract: A fluorescent fiber and an anti-counterfeiting material have an optical color that varies with irradiation angles of exciting light. The anti-counterfeiting fiber includes at least two components of materials that extend parallel along the longitudinal direction without twisting. At least one component contains photoluminescence material. The distribution of the components makes the anti-counterfeit fiber form a shielding structure for exciting light, and has an orientation structure. The exciting light shielding structure and orientation structure enable, when the anti-counterfeit fiber falls freely into a plane paralleled to the horizontal plane, the existence of at least two irradiation angles of exciting light above the plane paralleled to the horizontal plane, from which exciting light irradiates on the anti-counterfeit fiber respectively. The anti-counterfeit fiber thereby displays obvious visual difference between two different luminescent colors.
Abstract: A method for fabricating a reinforced matrix composite comprising the step of providing a composite preform having a fibrous structure and applying matrix material onto the preform in locations along the preform. A barrier material is applied to at least a portion of the coated preform to direct the flow of matrix material into the preform. The composite preform is heated to a temperature sufficient to render the matrix material viscous and insufficient to cure the matrix material. The pressure to the interior of the composite preform is reduced, while the pressure to the barrier material is increased. The temperature is maintained to flow the matrix material into the composite preform and to force gases from the fibrous structure. The composite preform is then cured and cooled to form a reinforced matrix composite having a low void content and a substantially uniform matrix distribution.
Type:
Grant
Filed:
October 26, 2007
Date of Patent:
January 11, 2011
Assignee:
General Electric Company
Inventors:
Lee Alan Blanton, Gregory Joseph Meibers, Robert Paul Fairbanks, Stephen Mark Whiteker, Richard Thomas Price, Matthew Bernard Buczek, Warren Rosal Ronk
Abstract: The invention provides methods for producing flexible, stretchable, and/or elastic products comprised principally of material such as natural elastomers and other synthetic polymers. The method for producing stretchable products by spraying product material over a workpiece former, and method for creating perforated products by spraying product material over fibres in an upright position. The invention provides methods for making double sided fibre coating of the product and, or to at least coating the product surface on the side facing the wall without the need for removing the product from the wall.
Abstract: The invention relates to a bioactive fiber product that, as a bioactively effective constituent, contains only one polyester fiber, which is largely or exclusively made of a polyester having links, which are condensed therewith and which contain phosphorous. The bioactive fiber products are suited for all textile products for which antibacterial, fungicidal, acaricidal and similar effects are sought.
Type:
Grant
Filed:
March 6, 2002
Date of Patent:
December 28, 2010
Assignee:
Trevira GmbH
Inventors:
Hartmut Last, Bernd A. Blech, Jörg Dahringer, Stefan Seibel
Abstract: A profile-extruded article is disclosed, made of a fiber-reinforced polymer of vinyl-chloride monomer, wherein the article has a ratio of actual specific gravity to theoretical specific gravity of nearly unity. A method of making the article is also disclosed.
Abstract: Provided is a fiber-reinforced thermoplastic resin molded article, which contains reinforcing fibers having a given flattened cross-sectional profile, in which the fiber length distribution of the reinforcing fibers is shifted on the side of long fibers, and which is excellent in mechanical strength, heat resistance, dimensional accuracy such as warpage resistance, and surface appearance.
Abstract: A novel flame-retardant thermoplastic polyhydroxy polyether resin obtained by reacting at least one epoxy resin (A) selected from glycidyl esters of divalent aliphatic carboxylic acids having 15 to 64 carbon atoms or glycidyl ethers of divalent aliphatic alcohols having 15 to 64 carbon atoms with a phosphorus atom-containing divalent phenol compound (B) as essential components, wherein the component (A) accounts for 2 to 52 mol % with respect to the whole resin, the weight average molecular weight thereof is 10,000 to 200,000, and the phosphorus content thereof is 1 to 5 wt %.
Abstract: The present invention is an interior material for a vehicle having a skin layer and a base layer. The skin layer contains an olefin-based thermoplastic elastomer, a polyolefin resin, a polylactic acid resin and a styrene-based thermoplastic elastomer, in amounts of respectively 20% to 70% by weight, 10% to 50% by weight, 5% to 30% by weight and 5% to 30% by weight based on 100% by weight of the total of these. The base layer is preferably a thin layer in which a natural fiber is dispersed in a phase of a thermoplastic resin such as a polyolefin resin, or a polyurethane foam layer.
Abstract: A thermosetting solution composition composed of a biphenyltetracarboxylic acid compound containing a partial lower aliphatic alkyl ester of 2,3,3?,4?-biphenyltetracarboxylic acid and/or a partial lower aliphatic alkyl ester of 2,2?,3,3?-biphenyltetracarboxylic acid, an aromatic diamine compound in a molar amount larger than a molar amount of the biphenyltetracarboxylic acid compound, a partial lower aliphatic alkyl ester of 4-(2-phenylethynyl)phthalic acid compound in a molar amount as much as 1.8-2.2 times a molar amount corresponding to a difference between the molar amount of the aromatic diamine compound and the molar amount of the biphenyltetracarboxylic acid compound, and an organic solvent composed of a lower aliphatic alcohol is of value for manufacture of a prepreg.
Abstract: An acoustical panel comprising a continuous phase of an interlocking set gypsum matrix and a method of preparing an acoustical panel are disclosed.
Type:
Grant
Filed:
March 17, 2008
Date of Patent:
December 14, 2010
Assignee:
United States Gypsum Company
Inventors:
Mark H. Englert, Richard B. Stevens, Steven W. Sucech, Therese A. Fults, Michael J. Porter, Bruce L. Petersen, Russell A. Dombeck
Abstract: Ultralyophobe interfaces that are substantially inert to contaminants, thereby resulting in surfaces that are hydrophobic and/or lyophobic. The substrates include a substrate surface and have a bonding layer and a plurality of flexible fibers bound to the bonding layer. The flexible fibers have an elastic modulus and an aspect ratio, wherein as the elastic modulus of the fiber increases, the aspect ratio increases such that the flexible fibers bend upon contact of a liquid surface.
Type:
Grant
Filed:
June 9, 2005
Date of Patent:
December 14, 2010
Assignee:
University of Florida Research Foundation, Inc.
Abstract: The present disclosure provides a highly heat-resistant multilayer molded article having excellent adhesion between layers and which can be inexpensively produced and easily recycled. The multilayer molded article includes an innermost layer having a first polyarylene sulfide-derived resin composition including 95% to 80% by mass of a polyarylene sulfide-derived resin and 5% to 20% by mass of an olefinic (olefine-derived) elastomer, and an outer layer disposed on an outer-side of the innermost layer, including a second polyarylene sulfide-derived resin composition having 5 to 35 parts by mass of reinforced fibers relative to 100 parts by mass of the first polyarylene sulfide resin composition.
Abstract: An object of the present invention is to provide carbon fibers which have a high conductivity, readily form a network in a matrix and are suitable for use in a radiating member as well as a molded product thereof. The present invention is pitch-based carbon fibers which are obtained from mesophase pitch and have an average fiber diameter (AD) of 5 to 20 ?m, a ratio (CVAD value) of the degree of filament diameter distribution to average fiber diameter (AD) of 5 to 15, a number average fiber length (NAL) of 25 to 500 ?m, a volume average fiber length (VAL) of 55 to 750 ?m and a value obtained by dividing the volume average fiber length (VAL) by the number average fiber length (NAL) of 1.02 to 1.50, and a manufacturing method and molded product thereof.
Abstract: Particle toughened, fiber-reinforced composites include a fiber region and an interlayer region between the fibers. The fiber region includes a plurality of fibers at least partially within a first polymer composition including a first base polymer formulation and a first plurality of toughening particles. The interlayer region includes a second polymer composition including a second base polymer formulation and at least one of the first plurality of toughening particles and a second plurality of toughening particles. Examples of first and second pluralities of toughening particles, respectively, may include core shell rubbers and polyimides. Increasing concentration of the first plurality of toughening particles may improve the composite toughness while preserving thermal properties of the composite, such as weight loss after extended duration exposure to elevated temperature.
Type:
Application
Filed:
May 25, 2010
Publication date:
December 2, 2010
Applicant:
CYTEC TECHNOLOGY CORP.
Inventors:
Mark Richard Bonneau, Jack Douglas Boyd, Gordon T. Emmerson, Scott D. Lucas, Stephen Jacob Howard, Spencer Donald Jacobs
Abstract: Disclosed are formaldehyde-free, thermally-curable, alkaline, aqueous binder compositions, curable to formaldehyde-free, water-insoluble thermoset polyester resins, and uses thereof as binders for non-woven fibers and fiber materials.
Abstract: A method of making a printed circuit board panel, a printed circuit board panel made according to the method, and a system incorporating a printed circuit board provided onto the panel. The printed circuit board panel has a panel top edge, a panel bottom edge parallel to the panel top edge, and two parallel panel side edges, and further includes a first set of fiber bundles extending at the predetermined angle with respect to the panel side edges, and a second set of fiber bundles extending at the predetermined angle with respect to the panel top edge.
Type:
Grant
Filed:
November 17, 2005
Date of Patent:
November 30, 2010
Assignee:
Intel Corporation
Inventors:
William O. Alger, Gary B. Long, Gary A. Brist, Bryce D. Horine