Abstract: A process for producing physically foamed injection molded articles is provided. The process involves feeding a propellant-free thermoplastic melt into a cavity followed by delivering a physical propellant directly into the cavity or directly into the melt flowing into the cavity. The pressure exerted on the propellant during the injection stage is greater than that exerted on the propellant during the holding phase.
Abstract: Plant for manufacturing a latex foam layer of unlimited length and having lower and upper recesses. A plurality of laying planes provided with lower protuberances proceeds between an injection station and a layer removing station. Foam provided with lower recesses is directed towards a vulcanizer staying between the injecting station and the removing station. A plurality of upper plates, each of them provided with protuberances, is lowered, one by one, on the foam layer to impress upper recesses before the foam layer enters the vulcanizer. The plates, placed on the foam layer, have their ends shaped in such a way to avoid completely any penetration of steam condensation drops. Upper plates release their weight to fixed supports of the planes to which they are bound until they leave the vulcanizer. The coming back of the plates from the extraction station towards the new cycle of moulding is independent of the operating system of the planes.
Abstract: Disclosed is a method for manufacturing an injection-molded foamed article, the method comprising the steps of: melt-kneading a thermoplastic resin and a chemical foaming agent in a cylinder of an injection unit, injecting the melt-kneaded thermoplastic resin from the cylinder into a cavity of a mold, and cooling and solidifying the thermoplastic resin injected in the cavity, wherein at least one of conditions (1) and (2) given below is satisfied: Mp+35° C.?T?Mp+115° C. and ??1800 sec?1??(1) ?wherein Mp denotes the melting point (° C.) of the thermoplastic resin, T denotes the molding temperature (° C.) and ? denotes the shear rate (sec?1) of the thermoplastic resin during its filling into the cavity at the molding temperature T; Tm?Mp?105° C.??(2) ?wherein Tm denotes a mold temperature (° C.), and Mp has the same meaning as above.
Abstract: A method of foam-embedding cables, in particular for foam-embedding a steering wheel skeleton which is equipped with cables, comprises the following steps: the cable is positioned in a foaming mold; a portion of the cable, which is not to be embedded in foam, is positioned in a resealable cavity provided in the foaming mold, the cavity being sealed against the ingress of foam; the cavity and the foaming mold are closed; the foaming mold is filled with foam; and the foaming mold and the cavity are opened to remove a product produced. There is also proposed a foaming tool for performing such method.
Abstract: A technique and tool are provided for repairing damaged areas of honeycomb structures. The tool includes a plurality of rods axially translatable into the damaged area. Foam material is inserted about the rods and allowed to cure. The rods are later withdrawn leaving a porous core of material. Sleeves may be provided to receive and support the rods as they translate into the damaged area. The sleeves may remain in the damaged area after the rods are withdrawn into the sleeves.
Abstract: The present invention relates to a solvent-welding process for water-soluble films, characterised in that the solvent has a viscosity of from 1.5 to 15,000 mPa.s.
Type:
Grant
Filed:
July 19, 2002
Date of Patent:
January 24, 2006
Assignee:
The Procter & Gamble Company
Inventors:
Tanguy Marie Louis Alexandre Catlin, Gwenael Delamarche, Atef Mohammed Bahay Eldin Haikal, Nigel Patrick Sommerville Roberts
Abstract: Disclosed is a resinous filter for an ink-jet recording apparatus, which is obtained by a process comprising: adding common salt to a melt of a resin comprising at least one member selected from the group consisting of polyethylenes having a number-average molecular weight of from 30,000 to 80,000 and polypropylenes having a number-average molecular weight of from 50,000 to 100,000; kneading the resultant mixture to prepare a melt to be molded; molding the melt to be molded to obtain a molding; and washing the molding with water to remove the salt therefrom.
Abstract: The methods of manufacturing molds from shape memory materials and molds made thereby, in accordance with the present invention, provide numerous advantages for molding castable composite parts. The initial mold cost is low enough to accommodate economical production of as few as a single part incorporating high surface definition and intricate three dimensional detail. The preferred methods and molds made thereby are transparent, thereby, curing of the corresponding part by ultra-violet and infra-red light is made possible, as well as, visual inspection during injection and curing of the given resin. Removal of the cured part from within the mold is simplified.
Abstract: A manufacturing method for a refrigerator door is disclosed. The method uses only a transparent plastic layer to make the refrigerator door. The present invention can simplify the manufacturing process, and reduce the number of parts required for the refrigerator door to reduce costs. Furthermore, an appearance pattern on the refrigerator door can be painted or printed onto the surface of the transparent plastic layer with different types, and a male mold of a vacuum forming machine can provide different shapes to make the refrigerator door into variety shapes. Moreover, because the appearance pattern can be painted or printed on the inner surface of the transparent plastic layer, the appearance pattern will not come off because of frequent touching.
Abstract: A print pad for printing on hard surfaces is made by first forming a mold having a textured surface, then forming the print pad in the mold. The textured surface of the mold is made by first manufacturing a sheet of plastic the surface of which has the desired texture, then using a thermoforming process to shape the plastic into the mold.
Abstract: A manufacturing method of a polyurethane foam injected with strand mats and a device for increasing the volume of the strand mats. The method comprises the steps of: increasing the volume of each of the strand mats to weaken the cohesion between glass fibers in each of the strand mats; continuously supplying and transferring the volume-increased strand mats; spraying a polyurethane foam solution on the continuously transferred strand mats; and foam molding the polyurethane foam solution in which the strand mats are immersed, into a polyurethane foam. Because the cohesion between the glass fibers in the strand mat is weakened and the volume of the strand mat is increased, the polyurethane foam solution uniformly permeates into the strand mats. As a result, the productivity of the polyurethane foam is improved and the variations in a variety of the mechanical properties are minimized.
Type:
Grant
Filed:
July 2, 2002
Date of Patent:
December 6, 2005
Assignee:
Han Kuk Fiber Glass Co., Ltd.
Inventors:
Jong Sik Kim, Young Soo Kwon, Jung Meung Roh
Abstract: The invention provides a method of co-injection molding. The method includes mixing a plastic inner material and an endothermic-blowing agent to form a core mixture. A plastic outer material is injected from a first injection unit into a co-injection manifold to create a flow of outer material therethrough. The core mixture is injected from a second injection unit into the co-injection manifold to create a flow of core mixture therethrough. The flow of the outer material and the flow of the core mixture are then controlled through the co-injection manifold and into a mold cavity. The core mixture expands as heat is provided for the endothermic-blowing agent to absorb.
Type:
Grant
Filed:
November 30, 2001
Date of Patent:
November 15, 2005
Assignee:
Bemis Manufacturing Company
Inventors:
Peter F. Bemis, Gary Vande Berg, Steven Kolste
Abstract: A method for the continuous production of expanded plastic material for forming panels and the like, in which during the pouring step, at least one reaction component and a mixture of the remaining components are introduced at high pressure in a pouring channel, by way of two injection assemblies. The mixture is provided downstream of a high-pressure pump and during the pouring hold step the remaining components of the mixture are individually placed in a recirculation step, without undergoing cross-contamination.
Abstract: Expanded, substantially non-crosslinked polypropylene resin beads capable of producing a high rigidity foamed molding at a relatively low temperature. The beads are produced by a process including a step of dispersing substantially non-crosslinked polypropylene resin particles in a dispersing medium containing an organic peroxide to obtain a dispersion, a step of heating the dispersion to decompose the organic peroxide and to modify the surface of the surface-modified polypropylene resin particles, and a step of expanding the non-crosslinked, surface-modified polypropylene resin particles using a blowing agent.
Abstract: A method for forming energy absorbing components for motor vehicles includes mixing a polymeric resin and blowing agent combination. The combination is heated, liquefied, and pressurized. A mold for receiving the liquefied combination is pre-cooled. The liquefied combination is injection molded in the mold to form the energy absorbing component.
Type:
Grant
Filed:
October 22, 2003
Date of Patent:
September 27, 2005
Assignee:
Cadillac Products Automotive Company
Inventors:
Robert J. Zander, Richard Kucejko, Michael P. Williams, II
Abstract: An object of the invention is to provide an injection molding process for preparing thermoplastic resin molded articles and an injection molding apparatus for use in practicing this process, the process and the apparatus being adapted to supply a blowing agent, especially a nonreactive gas such as carbon dioxide or nitrogen gas, to a thermoplastic resin continuously at a relatively low pressure with good stability to incorporate the agent or gas into the resin. As shown in FIG. 3, a resin in a cylinder (2) of an injection molding machine (1) as melted by rotating a screw (3) is mixed and dissolves carbon dioxide which is supplied to the molten resin from a gas supply opening (5) formed in the screw (3). An amount of the gas-incorporating molten resin is measured out and injected into a mold cavity to obtain an expansion-molded article.
Abstract: The present invention teaches a conformable device (20) including a light cure material (37) for customizing a portion of an article of footwear (53) in order to enhance conformance or fit, support, comfort, and cushioning, in partial or complete combination. In particular, a custom conformable device (20) consisting of an insole, or portion thereof, can serve to accommodate the unique anatomical features and characteristics of an individual wearer. Further, the present invention teaches a method of making a conformable device (20) including the use of a light table (120) that can be part a point of purchase display (206), or alternately, the floor (222) of a retail store (220).
Abstract: A method for forming a headliner assembly includes forming a main body blank having a periphery in a shape corresponding to a desired shape of the headliner assembly, the mold has a correspondingly shaped surface with a recess including an intermediate wall portion. The method includes introducing foam into the recess to simultaneously form at least one foam beam enclosing a selected component area, and join the at least one beam to the main body. The intermediate wall can be an accessory, and the beam may be formed to surround the component area. Additional foam application may be included to acoustically control the headliner's response to buzz, squeaks and rattles.
Type:
Grant
Filed:
December 19, 2002
Date of Patent:
September 6, 2005
Assignee:
Lear Corporation
Inventors:
Bari William Brown, George Bernard Byma
Abstract: A process for producing plastic/wood fiber composite foamed structures includes the steps of pre-drying wood fiber filler; mixing it with plastic to form a mixture; feeding the mixture into an extruder; introducing and mixing a blowing agent; subject the mixture to high shear forces and extruding the mixture to produce a plastic/wood fiber composite foamed structure. The filler has a degradation temperature and an active volatization temperature. During the pre-drying step the temperature is maintained below the degradation temperature. During the mixing step the mixing temperature is maintained below the active volatilizing temperature. During the introducing and mixing step a blowing agent is introduced into the plastic/wood fiber mixture and is mixed therewith to produce a plastic/wood fiber/gas mixture. During the subjecting step the plastic/wood fiber/gas mixture is subjected to high shear forces in the presence of high pressures and the temperature is maintained below an active volatilizing temperature.
Type:
Grant
Filed:
December 7, 2001
Date of Patent:
August 30, 2005
Inventors:
Chul B. Park, Ghaus M. Rizvi, Haiou Zhang
Abstract: There is disclosed a process for producing alkenyl aromatic foams utilizing a combination of atmospheric and organic gases as blowing agent, preferably using greater than 30% by weight of atmospheric gas, and preferably also using a predetermined about of a masterbatch mix comprising a styrenic polymer, a rubbery block copolymer, and a solid blowing agent. Also disclosed are alkenyl aromatic foams produced by the process which exhibit increased densities, increased thermoforming capabilities, increased post-expansion properties, and increased retainment of the atmospheric and organic gases.
Type:
Grant
Filed:
October 3, 2000
Date of Patent:
February 28, 2006
Assignees:
Reedy International Corporation, Genpak Corporation