141 |
Composite insulation |
US11377741 |
2006-03-16 |
US20070218790A1 |
2007-09-20 |
Aaron Schradin |
Articles, methods and vehicles are provided in connection with composite insulation. An article embodiment includes a moisture-resistant layer attached to a first surface of a sound-absorbing layer. The article embodiment also includes a heat-reflective layer attached to a second surface of the sound-absorbing layer. |
142 |
Method of making continuous rubber sheet with texture |
US11282632 |
2005-11-21 |
US20070113963A1 |
2007-05-24 |
Chung-Hu Hsiao; Den-Yong Lin |
A method of making a continuous rubber sheet with a texture thereon including the steps of: providing two rollers in front of a nozzle of a device for extruding a rubber material to form a rubber layer on the rollers. Provide a fabric to the rubber layer to form a rubber stack. Provide the rubber stack to a compression rolling set for rolling the rubber stack. Heat the rubber stack for vulcanization, and peel the fabric off. |
143 |
Multicolor, multilayer elastomeric articles and methods of manufacturing same |
US11271005 |
2005-11-10 |
US20070104904A1 |
2007-05-10 |
Curtis Hamann |
Multilayer elastomeric articles and methods of making the same are disclosed in which the outside or outer distal surface of the article is a different color or otherwise visually distinct in appearance from the inside or wearer contacting surface of the article so that the user of the article can readily identify the article as a multilayer elastomeric article. In one aspect, elastomer emulsions, solvent solutions, or plastisols used to form each layer may be modified with the addition of base color and/or colorant components in order to form a colored or patterned layer. In another aspect, one or both of the surfaces of the elastomeric articles (or layers of the articles) may be coated with such a colorant component to sufficiently visually distinguish the layers from each other. |
144 |
Modular surfacing system |
US11473521 |
2006-06-22 |
US20070042828A1 |
2007-02-22 |
Neil Krushke; Thomas Siebert |
A modular surfacing mat that includes a base mat, a top mat secured to the base mat with an adhesive, and a top coat applied to the top of the top mat to form a protective finish. The top coat may be any coating that provides a protective top finish on the mat, and is preferably a polyurea or polyurethane. The top coat may include a colorant. The top mat is preferably at least partially made from rubber. For example, recycled rubber may be used. The adhesive that bonds the top mat to the base mat is preferably a polyurethane or a polyurea. The base mat is preferably made from a cellular foam structure. For example, cellular foam strucutre may be closed cell polyethylene foam nuggets fused together in a crosslinked matrix. |
145 |
Vibration dampening material and method of making same |
US11019568 |
2004-12-22 |
US07171697B2 |
2007-02-06 |
Robert A. Vito; Carmen N. DiMario; Thomas Falone |
A panel formed by a reinforced elastomer material that regulates and dissipates vibration. |
146 |
Skidproof mat |
US11395726 |
2006-03-31 |
US20060223395A1 |
2006-10-05 |
Guanghe Wang |
A skidproof mat is provided which comprises: a rubber layer; and a base layer; wherein said base layer is arranged in said rubber layer. In accordance with the present invention, the rubber layer is made of thermoplastic elastic materials such as thermo plastic rubber and thermo plastic elastomer, which ensures perfect anti-slip effect. The base layer is positioned in the rubber layer to increase the tenacity so that the skidproof mat is impossible to be deformed and has well ageing resistance. In addition it is convenient to print various required patterns on the base layer. |
147 |
Highly reflective asphalt-based roofing membrane |
US11432452 |
2006-05-11 |
US20060201610A1 |
2006-09-14 |
Robert Bartek |
A prefabricated asphalt-based waterproof roofing membrane for use in a multi-ply asphalt-based commercial roofing system, e.g. a cap sheet that forms the exposed layer of a multi-ply built-up roofing system, is manufactured at a factory to have a highly reflective thermoplastic elastomeric sheet layer with a top surface that has a reflectance that meets current EPA Energy Star requirements. Preferably, a polymer primer layer is interposed between the highly reflective thermoplastic elastomeric sheet layer and an asphalt saturated and coated reinforcing substrate to keep oils and other colored components in the asphalt from exuding into the highly reflective thermoplastic elastomeric sheet layer. |
148 |
Highly reflective asphalt-based roofing membrane |
US10659002 |
2003-09-10 |
US07070844B2 |
2006-07-04 |
Robert Bartek |
A prefabricated asphalt-based waterproof roofing membrane for use in a multi-ply asphalt-based commercial roofing system, e.g. a cap sheet that forms the exposed layer of a multi-ply built-up roofing system, is manufactured at a factory to have a highly reflective thermoplastic elastomeric sheet layer with a top surface that has a reflectance that meets current EPA Energy Star requirements. Preferably, a polymer primer layer is interposed between the highly reflective thermoplastic elastomeric sheet layer and an asphalt saturated and coated reinforcing substrate to keep oils and other colored components in the asphalt from exuding into the highly reflective thermoplastic elastomeric sheet layer. |
149 |
Corner molding compositions for automotive sealant systems |
US10967078 |
2004-10-15 |
US20060084762A1 |
2006-04-20 |
Karla Shaw |
An automotive sealant composite structure is provided. The composite structure includes a first piece comprising a first elastomeric component that includes an at least partially crosslinked rubber, a first olefinic thermoplastic resin component, and a second olefinic thermoplastic resin component. The second olefinic thermoplastic resin component includes a propylene copolymer that has (i) 60 wt % or more units derived from propylene, (ii) isotactically arranged propylene derived sequences and (iii) a heat of fusion less than 45 J/g. The composite structure also includes a second piece at least partially adhered to the first piece. Preferably, the second piece includes one or more thermoset ethylene copolymer rubbers. Preferably, the first piece is a corner piece and the second piece is a straight piece at least partially adhered to the corner piece, together constituting a vehicular window seal structure. |
150 |
Constrained layer, composite, acoustic damping material |
US11207160 |
2005-08-18 |
US20060040096A1 |
2006-02-23 |
Rajan Eadara; Roy Jacob; Anthony Konovaliv; Arnold Joseff; Biju Philip |
A constrained layer, composite structure for damping acoustic vibrations includes an extensional layer comprised of a first polymeric material, and a constraining layer of a second polymeric material. The modulus of elasticity of the constraining layer is greater than that of the extensional layer. In use, the structure is disposed on the surface of an article in which acoustic vibrations are to be damped so that the extension layer overlies the surface. Also disclosed are methods for preparing the structure, including automated methods. |
151 |
Shock and vibration dampening grip |
US10431697 |
2003-05-08 |
US06974626B2 |
2005-12-13 |
Patricia Horacek |
A shock and vibration dampening grip wrap comprised of at least two layers of elastomeric material having differing densities. When applied to a handle the grip wrap provides a firm and reversible grip, and is water-resistant. The shock and vibration dampening wrap includes an upper, denser grip elastomer layer overlaying a second, less dense base elastomer layer. These layers may be optionally conjoined by an elastomer adhesive, a built-up structure, or formed as a unitary structure without recourse to this elastomer adhesive. A grip wrap adhesive and primer are applied to an underside of the base elastomer to affix the grip wrap to the desired handle. An extrusion methodology for forming the grip elastomer layer further serves to create within the grip elastomer an open-celled structure having exceptional wicking characteristics. This structure, in combination with an optional surface texture applied to an upper surface of the grip elastomer provides both shock and vibration dampening, as well as a water-resistant surface. |
152 |
Sheet |
US10494375 |
2004-05-13 |
US20040265610A1 |
2004-12-30 |
Takeshi
Miyakawa; Minoru
Oda; Masafumi
Hiura |
A sheet excellent in mechanical performance such as folding endurance is provided. A sheet having a substrate layer using an impact-resistant styrene type resin containing 2 to 15 wt % of rubber particles having a peak at less than 2 um and an impact-resistant styrene type resin containing 0.2 to 10 wt % of rubber particles having a peak at 2 nullm or more in a distribution of volume-based particle diameters, or a sheet having a substrate layer comprising an impact-resistant styrene type resin (A) containing 10 to 15 wt % of rubber having a volume average particle diameter of from 0.5 nullm to 1.5 nullm and an impact-resistant styrene type resin (B) containing 5 to 10 wt % of rubber having a volume average particle diameter of from 2.0 nullm to 3.0 nullm wherein (A) is from 50 to 95 wt % and (B) is from 5 to 50 wt % on the basis of the total amount of both components, and a surface layer formed on at least its one surface, is provided. |
153 |
Bonding elastomeric articles |
US10031500 |
2002-01-15 |
US06808579B1 |
2004-10-26 |
Carl Trevor Ross Pulford; Ran Ding; Richard Michael D'Sidocky; Patrick John Reilly |
An improved method of bonding at least two cured or uncured elastomeric layers is disclosed. The method comprising placing an uncured elastomeric component (22) between the two elastomeric layers, and curing the elastomeric component to bond the elastomeric layers together. The improvement is characterized by forming the uncured elastomeric component (22) by preparing two non-productive elastomer compounds (10, 12), wherein each non-productive compound (10 or 12) is prepared with a co-reacting agent of a co-reacting cure package not added to the other non-productive compound (12 or 10), and layering the non-productive elastomer compounds (10, 12) in alternating layers with a thickness relative to the diffusion rate of the co-reacting agents in each non-productive elastomeric layer (10, 12) to effect diffusion of the co-reacting cure agents through the adjacent layers. |
154 |
Synthetic material and methods of forming and applying same |
US10635064 |
2003-08-06 |
US20040076831A1 |
2004-04-22 |
Christopher
Hable; Abraham
Kassa |
A synthetic material and articles incorporating the same are disclosed. The synthetic material includes a base material, which is at least partially tacky. Preferably, a coating, a film or a treatment is applied to the base material for providing a substantially non-tacky surface to the synthetic material. |
155 |
Elastic blocks and process for producing the same |
US09570432 |
2000-05-12 |
US06602586B2 |
2003-08-05 |
Hirofumi Kakimoto; Masanori Igaki |
An elastic block, which is adapted to be paved on an underlying base for absorbing impacts, includes a laminate composed of a powdery rubber-containing layer and a vulcanized rubber layer underlying the powdery rubber-containing layer, the powdery rubber-containing layer being a compression molded layer composed of a mixture comprising elastic chips having the particle size of 0.5 to 10 mm and a resin binder, the vulcanized rubber layer being a vulcanized molding of an unvulcanized rubber layer, wherein the elastic chips are fixedly bonded to one another with the resin binder and the powdery rubber-containing layer is adhered to the vulcanized rubber layer when the mixture layer and the unvulcanized rubber layer are subjected to pressurization and vulcanization. |
156 |
Multi-layer stretch film |
US09555330 |
2000-09-25 |
US06517936B1 |
2003-02-11 |
Paolo Ciocca; Roberto Forloni; Isabella Ferri |
A stretch film heat-sealable to polystyrene-based material comprising a first outer heat-sealing layer, a second outer layer and at least an intermediate layer, comprising in the first outer heat-sealing layer a TPE-S such as a styrene-butadiene-styrene block terpolymer (SBS) or a hydrogenated derivative thereof. Also described are packages made with the new stretch film. |
157 |
Multi-piece solid golf ball |
US19045298 |
1998-11-13 |
US6334819B2 |
2002-01-01 |
ICHIKAWA YASUSHI; KASHIWAGI SHUNICHI; TAKESUE RINYA |
In a multi-piece solid golf ball comprising a solid core and a cover consisting of inner and outer layers, the cover inner layer is composed mainly of an ionomer resin, and the cover outer layer is composed mainly of another thermoplastic elastomer. A thermoplastic resin-base adhesive layer is interposed between the cover inner and outer layers, or a thermoplastic resin-base adhesive is blended in the inner and/or outer layer cover stock. |
158 |
Solid golf ball |
US09464402 |
1999-12-16 |
US06290612B1 |
2001-09-18 |
Takashi Maruko; Hisashi Yamagishi; Yutaka Masutani; Atsushi Nakamura |
A solid golf ball having a multilayer structure including a S core of one or more layers, an enclosing layer, an intermediate layer, and a cover of one or more layers. The intermediate layer is made of a cis-1,4-polybutadiene base rubber composition, and the enclosing layer is composed primarily of a resin material. The enclosing layer and the intermediate layer have a difference in hardness at the boundary therebetween within ±3 JIS-C hardness units. The ball has excellent durability and a good feel when hit with a golf club. |
159 |
Fluororesin-coated member, production method therefor and heat fixing
device using the coated member |
US619438 |
1996-03-21 |
US5763068A |
1998-06-09 |
Kazuo Kishino; Hiroaki Kumagai; Masaaki Takahashi; Hideo Kawamoto; Hideyuki Hatakeyama |
The present invention provides a fluororesin-coated member having a fluororubber layer containing a fluororesin, and a fluororesin layer formed on the fluororubber layer. The fluororesin layer is a uniform layer formed by coating an aqueous fluororesin dispersion coating and burning it, and exhibits excellent surface smoothness and durability of adhesion to the fluororubber layer. The present invention also provides a method of producing the fluororesin-coated member. |
160 |
Vibration-damping of structural products |
US530391 |
1995-09-19 |
US5672228A |
1997-09-30 |
Aleksander B. Macander; Thomas N. Tinley; Steven S. Chiu |
Vibration-damping layers are stored as a continuous elongated strap in cod condition for supply to subsequently fabricated structural products. Such strap is formed from high modulus layer constrainment segments encapsulated within a viscoelastic material contributing to establishment of the vibration-damping property and flexure of the strap between the segments thereof to accommodate coiling during storage. The strap is uncoiled from its storage condition during a supply phase to a preselected surface of the fabricated structural product. |