| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | MARBLE CHIP FLOORING MATERIAL USING PLA RESIN | US14389678 | 2012-12-27 | US20150056405A1 | 2015-02-26 | Chul Hyun Kim |
| The present invention provides a PLA flooring material comprising: a marble chip surface layer comprising a PLA (poly lactic acid) resin; an adhesive layer and a plywood layer formed under the marble chip surface layer; and a surface treatment layer formed on the marble chip surface layer. In addition, the present invention provides a method for manufacturing a marble chip flooring material, comprising the steps of: preparing a marble chip surface layer comprising a PLA resin; forming an adhesive layer and a plywood layer under the marble chip surface layer; and forming a surface treatment layer on the marble chip surface layer. | ||||||
| 42 | Flexible Packaging Composites | US14065205 | 2013-10-28 | US20140057061A1 | 2014-02-27 | Christopher R. Tilton |
| The flexible packaging composites include one or more mineral-containing layers with a thermoplastic bonding agent. In addition to the mineral-containing layer, the composite can contain one or more non-mineral containing layers, including various combinations of extruded resins, cast or blown films, and fibers. The mineral-containing layer is substantially and continuously bonded to the other layers. The polymer, fiber, and mineral containing layers can be shaped, sized and manufactured such that the composite structure formed is subsequently machined to form a storage article. The composite structure has advantages including a high degree of pliability and flexibility, a minimum 37 dyne level on the surface of the mineral containing layer; a mineral containing layer that is highly 86 opaque, and has a bright, white printing surface that readily accepts coating and inks, therefore, rendering it highly attractive to consumers. | ||||||
| 43 | PANEL CONTAINING BAMBOO | US12405110 | 2009-03-16 | US20090263617A1 | 2009-10-22 | Nian-hua Ou; Brian Christopher Gerello |
| A multi-layered composite wood panel including a core layer, a first surface layer and a second surface layer. The core layer is formed from wood flakes and has a top surface and a bottom surface. The first surface layer is adhered to the top surface of the core layer and includes strands of woven bamboo. The second surface layer is adhered to the bottom surface of the core layer and includes strands of woven bamboo. The core layer, first surface layer and second surface layer are bound together to form a substantially rectangular plane having a thickness of between about 0.25 inches and about 2.0 inches. | ||||||
| 44 | GROUND CALCIUM CARBONATE COMPOSITES FOR STORAGE ARTICLES AND METHOD OF MAKING SAME | US12013077 | 2008-01-11 | US20090047499A1 | 2009-02-19 | CHRISTOPHER R. TILTON |
| The present invention is directed to an environmentally friendly composite structure and storage article fabricated therefrom. The composite structure includes a fiber-containing layer, such as a fiberboard layer or other layer having fibers from natural and/or synthetic sources, and a ground calcium carbonate-containing layer covering the fiber-containing layer. The ground calcium carbonate-containing layer is substantially continuously bonded to the fiber-containing layer along the surface of the fiber-containing layer. The fiber-containing layer and ground calcium carbonate-containing layer can be shaped, sized and manufactured such that the composite structure formed therefrom is capable of being shaped to form the storage article. The composite structure has advantages in that it has a high degree of pliability and flexibility that is increased over the pliability of the fiber-containing layer alone, which renders it highly attractive to consumers. The composite structure further has tensile strength and other characteristics that allow it to be readily machined into desired storage article forms, such as box and carton forms. | ||||||
| 45 | Difficulty flammable extruded articles, especially extruded boards, and a process for making them | US667580 | 1984-11-02 | US4670484A | 1987-06-02 | Fritz-Reichard Fuchs; Horst Staendeke |
| The disclosure relates to difficultly flammable wooden articles, especially chip boards comprising solid and pipe boards, prepared by extrusion from wooden chips and/or woody fibrous materials. The articles contain as a flame-retarding addend a product of(a) 50 to 99.5 weight % of a flame-retarding agent physically and chemically stable under extrusion conditions, preferably 75 to 99.5 weight % of a pulverulent, free-flowing ammonium polyphosphate of the general formulaH.sub.(n-m)+2 (NH.sub.4).sub.m P.sub.n O.sub.3n+1in which n stands for a whole number with an average value of about 20 to 800 and the ratio of m/n is about 1, and(b) about 0.5 to 50 weight % of a cured water-insoluble artificial resin encapsulating the individual particles of the flame-retarding agent or ammonium polyphosphate.The disclosure also relates to difficultly flammable boards veneered with wood or a laminate. | ||||||
| 46 | Composite wood panel | US685205 | 1984-12-24 | US4569873A | 1986-02-11 | Earl H. Robbins |
| The dimensional stability of a composite wood panel having two surface wood veneer sheets with their grains disposed in the same direction and a core of adhesively bonded biomass particles such as processed wood particles is improved by including a third wood veneer sheet having its grain substantially perpendicular to the grains of the surface veneer sheets substantially centrally disposed in the core between the surface veneer sheets. The panel may be used as a wood structural panel in buildings, in furniture, or the like. | ||||||
| 47 | Industrial mats having side protection | US15789412 | 2017-10-20 | US10017903B2 | 2018-07-10 | Joe Penland, Jr.; Rustin Penland; Scott Calvert; Thomas O'Brien |
| An industrial mat that has a support core configured and arranged to support other components of the mat; and upper and lower layers that provide upper and lower surfaces of the mat and that protect the support core. The support core includes a frame of longitudinal side members, end members and cross members each of which is made of steel or a thermosetting plastic material. The frame can include wood, plastic or elastomeric internal members or materials to fill internal open areas of the frame, with the upper and lower layers and the sides and ends of the frame retaining the internal members or materials therein. The mat preferably includes lifting elements of D-shaped rings, O-shaped rings, chains, or cables attached to the upper or lower layer or the support core to provide certified overhead lifting of the mat for installation and reclamation thereof. | ||||||
| 48 | COMPOSITE MOLDED ARTICLE, LAMINATE, AND METHOD FOR PRODUCING COMPOSITE MOLDED ARTICLE | US15318608 | 2015-07-15 | US20180162093A1 | 2018-06-14 | Hidehiro SASAKI |
| The present invention provides a composite molded article in which aliphatic polyester-based resin expanded beads and a thermosetting resin cured product containing a reinforcing fiber, which is formed between the expanded beads, are integrally fixed, wherein the aliphatic polyester-based resin is a polylactic acid-based resin, and a flexural modulus E (MPa) of the composite molded article and a density ρ (kg/m3) of the composite molded article satisfy Expression (1): E1/3/ρ≥0.02 [(MPa)1/3(kg/m3)−1], and a composite molded article and a laminate having more improved strength. | ||||||
| 49 | Hybrid crane mat utilizing various longitudinal members | US15621989 | 2017-06-13 | US09845576B2 | 2017-12-19 | Joe Penland, Jr.; Scott Calvert; Chris L. Richardson; Mike Carbaugh |
| A crane mat having first and second side beams or boards; a core structure made of pine or other softwoods, eucalyptus, solid plastic or elastomeric members, or hollow thermoplastic, thermosetting plastic or elastomeric members that optionally include a filler or internal reinforcing structure; external components including an upper and/or lower layers of one or more elongated members to protect the core structure, and a plurality of joining members that attach the outer side members to the core structure. Another crane mat can be made of just the solid plastic or elastomeric members, or hollow thermoplastic, thermosetting plastic or elastomeric members that each include a plurality of spaced lateral apertures passing therethrough; and joining members that include a rod that passes through the aligned lateral apertures to hold the members together in the mat. These crane mats may also include lifting elements of the types described herein. | ||||||
| 50 | HYBRID CRANE MAT UTILIZING VARIOUS LONGITUDINAL MEMBERS | US15621989 | 2017-06-13 | US20170275829A1 | 2017-09-28 | Joe PENLAND, JR.; Scott CALVERT; Chris L. RICHARDSON; Mike CARBAUGH |
| A crane mat having first and second side beams or boards; a core structure made of pine or other softwoods, eucalyptus, solid plastic or elastomeric members, or hollow thermoplastic, thermosetting plastic or elastomeric members that optionally include a filler or internal reinforcing structure; external components including an upper and/or lower layers of one or more elongated members to protect the core structure, and a plurality of joining members that attach the outer side members to the core structure. Another crane mat can be made of just the solid plastic or elastomeric members, or hollow thermoplastic, thermosetting plastic or elastomeric members that each include a plurality of spaced lateral apertures passing therethrough; and joining members that include a rod that passes through the aligned lateral apertures to hold the members together in the mat. These crane mats may also include lifting elements of the types described herein. | ||||||
| 51 | Ground Calcium Carbonate Composites for Storage Articles and Method of Making Same | US15495890 | 2017-04-24 | US20170225427A1 | 2017-08-10 | Christopher R. Tilton |
| The present invention is directed to an environmentally friendly composite structure and storage article fabricated therefrom. The composite structure includes a fiber-containing layer, such as a fiberboard layer or other layer having fibers from natural and/or synthetic sources, and a ground calcium carbonate-containing layer covering the fiber-containing layer. The ground calcium carbonate-containing layer is substantially continuously bonded to the fiber-containing layer along the surface of the fiber-containing layer. The fiber-containing layer and ground calcium carbonate-containing layer can be shaped, sized and manufactured such that the composite structure formed therefrom is capable of being shaped to form the storage article. The composite structure has advantages in that it has a high degree of pliability and flexibility that is increased over the pliability of the fiber-containing layer alone, which renders it highly attractive to consumers. The composite structure further has tensile strength and other characteristics that allow it to be readily machined into desired storage article forms, such as box and carton forms. | ||||||
| 52 | LIGHTWEIGHT CONSTRUCTION ELEMENT, MANUFACTURING METHOD THEREFOR, USE OF SAME, AND LIGHTWEIGHT PANEL AND INSULATING MATERIAL | US15301685 | 2015-04-02 | US20170183869A1 | 2017-06-29 | Johann BERGER |
| A lightweight construction element (1) comprises at least one lightweight panel (2) and a layer of insulating material (4) associated with the lightweight panel (2), wherein the at least one lightweight panel (2) comprises boards (6), which, on at least one of the main surfaces (8) thereof, have a group of grooves (9) running parallel and which boards (6) are arranged in at least one layer (5) and are connected to one another via adhesive bonds. The layer of insulating material (4) comprises wood chips (19), which are removed from starting boards during the manufacture of boards (6) for the lightweight panels (2). These lightweight construction elements have good load and thermal insulation properties. The material used originates from one source and achieves a large overall volume after processing. | ||||||
| 53 | HYBRID CRANE MAT WITH LIFTING ELEMENTS | US15400951 | 2017-01-06 | US20170121916A1 | 2017-05-04 | Joe PENLAND, JR.; Scott CALVERT; Chris L. RICHARDSON |
| An industrial mat having a supporting structure; an upper layer provided above the supporting structure for forming an upper surface of the mat, a lower layer provided below the supporting structure for providing a lower surface of the mat; and lifting elements attached to the upper layer, the lower layer or the supporting structure. The lifting elements include D-shaped members, O-shaped members, U-shaped members, eyelets, hooks, circular or polygonal rings, chains, or cables that are configured and dimensioned for attachment to attached to the supporting structure or the upper or lower layer with sufficient strength to provide certified overhead lifting of the mat for installation and reclamation thereof. | ||||||
| 54 | METHOD FOR PRODUCING A VISIBLE COVERING | US15345911 | 2016-11-08 | US20170113435A1 | 2017-04-27 | Holger MAROHN |
| The invention relates to a method for producing a visible covering (1) comprising the following steps: mixing a stabilising agent with a granular material (2), introducing the granular material (2) into a receiver (3) to form a moulded article (4), connecting of at least a surface layer (9) of the moulded article with a carrier layer (10), removing the composite of surface layer (9) and carrier layer (10), wherein the visible covering (1) is obtained. The invention further related to a visible covering (1) produced with the method according to the invention and the use thereof as a facing of ceilings, walls, floors, doors, roofs and/or tabletops. | ||||||
| 55 | INDUSTRIAL MATS HAVING PLASTIC OR ELASTOMERIC SIDE MEMBERS | US15188113 | 2016-06-21 | US20160298302A1 | 2016-10-13 | Joe PENLAND, JR. |
| A mat that includes first and second side beams, a core structure located between and connected to the side beams, with the support structure including longitudinal members and having a height that is less than that of the side beams, a plurality of joining rods that attach the side beams to the support structure, with the joining rods passing through the sides of the side beams and the sides of the longitudinal members of the support structure; one or more elongated members attached to the upper portion of the support structure to form with the beams the top surface of the mat, and one or more elongated members attached to the lower portion of the support structure to form with the beams the bottom surface of the mat. If desired, steel plates can be provided between the beams and longitudinal members to increase the strength and ruggedness of the mat. | ||||||
| 56 | Waterproof composite core | US14677066 | 2015-04-02 | US20160288447A1 | 2016-10-06 | Eurico Januario Cordeiro |
| A Glass Plastic Composite core material for floors and walls in the form of planks, tiles, wall panels and sheets made from recycled glass or glass, polyvinyl chloride and porcelain without containing wood fibers. | ||||||
| 57 | Engineered waterproof flooring and wall covering planks | US14542031 | 2014-11-14 | US09193137B2 | 2015-11-24 | Piet V. Dossche; Philippe Erramuzpe |
| Waterproof engineered floor and wall planks have a wear layer, an underlayer about an extruded dust and plastic composite core and a click-lock edge fastening system. | ||||||
| 58 | CORK TILE AND METHOD OF MAKING THE TILE | US14424837 | 2013-09-03 | US20150204082A1 | 2015-07-23 | Michele Lacu |
| A cork tile includes a body of agglomerated cork having a first face applicable to a wall to be covered and a second face opposite the first face and a covering material laid over and anchored to the second face of the body. The covering material includes a base layer laid over the second face of the body and having adhesive properties so it can be attached thereto, and a plurality of marble particles of at least one predetermined colour laid over the base layer and distributed thereon with a variable density in order to produce coloured zones in variable shades in such a way that the base layer is visible at the zones with a low density of marble particles. | ||||||
| 59 | Method for Producing a Visible Covering | US13375660 | 2010-06-02 | US20120171428A1 | 2012-07-05 | Holger Marohn |
| The invention relates to a method for producing a visible covering (1) comprising the following steps: mixing a stabilising agent with a granular material (2), introducing the granular material (2) into a receiver (3) to form a moulded article (4), connecting of at least a surface layer (9) of the moulded article with a carrier layer (10), removing the composite of surface layer (9) and carrier layer (10), wherein the visible covering (1) is obtained. The invention further related to a visible covering (1) produced with the method according to the invention and the use thereof as a facing of ceilings, walls, floors, doors, roofs and/or tabletops. | ||||||
| 60 | METHOD OF MANUFACTURING FLOOR PANELS CONTAINING WOOD/PLASTIC COMPOSITE, AS WELL AS SUCH PANELS | US13144604 | 2010-01-14 | US20110300392A1 | 2011-12-08 | Bruno Paul Louis Vermeulen |
| A method of manufacturing floor panels comprising at least one layer containing wood/plastic composite (WPC) adjacent an upper surface of the panels includes the step of providing a granulate of WPC in which natural fibers are encapsulated in polymer plastics which has been colored to a desired color for the upper surface. To form a sheet, a layer of granulate is melted and pressed. If several layers are used, only the upper layer is colored. The sheet is finished to form one or more panels. The coloring is done to imitate natural materials at least on the upper surface of the panel. Additional features can be taken to improve the appearance of the upper surface. | ||||||
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