Abstract: An improved method for bonding same or different thermoplastic high molecular weight materials is described, in which the respective materials to be bonded are heated until their respective temperatures reach a temperature a little lower than the respective second order transition points, when a pressing force is applied to a butting surface between the materials to be bonded, and after the materials have been in themselves further heated up to a temperature 20.degree. - 50.degree. C higher than the higher second order transition point if the second order transition points of the respective materials are different, the materials are slowly cooled down to a temperature lower than the lower second order transition point.
Abstract: A press for compacting and integrating material to form a continuous strip comprising spaced parallel arrays of long narrow bars, a frame supporting the bars in each array for reciprocal movement, a feeder for supplying material to the space between the arrays of bars at one of the press, rams for effecting relative movement of the arrays of bars toward each other to apply compacting pressure, and rams for effecting longitudinal movement of the bars in each array in a predetermined succession in one direction and for retracting all of the bars in consonance in the other direction.
Abstract: A cartridge such as a caulking cartridge is formed of extruded and injection molded resin parts assembled and welded together. A resin tube is extruded and cut off in lengths to form cartridge barrels, and single-piece resin end caps and nozzles are injection molded. The barrel cylinders are fed to an assembly station where the end caps and nozzles are fitted over one of the severed ends of the barrel cylinders in concentric registry with the barrel cylinders and are successively welded to the barrel cylinders to form cartridges.
Abstract: A batch process for vulcanizing, without the use of a lead press, reinforced elastomeric hose built up on a solid mandrel, preferably a flexible mandrel of rubber or thermoplastic material, is disclosed. In the preferred embodiment of the process, the uncured hose is first annularly tightly clamped at its opposite ends and is then immersed in a bath of liquid, e.g. water, sufficient to cover the hose substantially completely. The entire assembly is then subjected in a pressurized heating environment, e.g. in a steam-filled vulcanizer or autoclave, to the action of fluid pressure against the outer hose surface and the pressure due to the thermal expansion of the mandrel against the inner hose surface. The clamping of the hose ends prevents entry of fluid pressure into the space between any two proximate layers of elastomeric material occupied by a layer of the filamentary reinforcement.
Abstract: A metallic laminate of the type comprising sheet metal, such as galvanized sheet steel, and aluminium foil, with an interposed thermoplastic, such as polyethylene, which, under heat and pressure, adheres to the foil and sheet metal, has its bond strength substantially increased winding it as a coil under tension, the laminate being heated, before and/or after coiling. Subsequently the coil, while clamped radially to prevent relative movement of the coil convolutions, is cooled from the outside, the coiling under tension, the heating and the cooling all causing inter-layer pressures in the coil which, with the heat, bring about a useful increase in the bond strength.
Type:
Grant
Filed:
October 10, 1974
Date of Patent:
July 20, 1976
Assignee:
Heatshield Research and Development Pty. Ltd.
Abstract: A flexible heat set biaxially oriented film article having in at least one portion thereof a bead type heat seal is prepared by clamping together adjacent the portion to be heat sealed, superimposed plies of a heat set, biaxially oriented polyester film, said film being characterized as having a tensile strength of at least 15,000 psi and a ratio of tensile strengths in the TD to MD direction between about 0.67 and 1.5, imposing a heat energy source to fuse in a bead type seal the superimposed film and maintaining the plies of film pressed together until the source of heat energy is retracted therefrom.
Type:
Grant
Filed:
December 18, 1973
Date of Patent:
July 13, 1976
Assignee:
Union Carbide Corporation
Inventors:
Howard D. Bassett, Franklin E. Schrage, George F. Kirkpatrick
Abstract: A multilayer composition may be prepared by a process comprising applying an intimately mixed blend of a thermoplastic polyolefin and an elastomer to the surface of an elastomer and bonding said blend to said surface by heating and application of pressure. Thus a film of the intimately mixed blend may be applied to the surface of the elastomer.Also a motor-car door seal can be produced by extruding to the desired profile the intimately mixed blend of thermoplastic polyolefin and elastomer so as to form the base foot and bonding the elastomer seal to the extruded section.
Type:
Grant
Filed:
February 4, 1974
Date of Patent:
June 8, 1976
Assignee:
Exxon Research and Engineering Company
Inventors:
Bernard Costemalle, Arnold Cornelis VAN Ek
Abstract: With a method for the fabrication of multilayers a laminate is obtained by the stacking of layers, which are formed by a carrier provided with a conductor pattern and interleaved by adhesive layers. The laminate is subjected to a process which is carried out in at least three phases: in the first phase moisture and air are extracted from the space in which the laminate is placed, in the second phase the laminate is pressed together under increasing temperature and in the third phase the pressing process is performed under another temperature rise to a certain maximum value and under a further increase in pressure, while air is admitted into the space where the laminate is situated.
Type:
Grant
Filed:
July 10, 1974
Date of Patent:
June 1, 1976
Assignee:
N.V. Hollandse Signaalapparaten
Inventors:
Dick La Roy, Erik Adriaan Willem Van Ebbenhorst Tengbergen
Abstract: A particle having superior bonding properties comprising crystalline portions connected together by a bonding material. The bonding material is relieved at the surface of the particle to provide capillaries extending into the particle between adjacent crystals. This results in the fusing material having a terminal surface recessed from the surface of the particle. The particle, when added to an elastomeric material, achieves superior mechanical, chemical and vacumatic bond strength as the elastomeric material is anchored to the particles by occupation of the capillaries, achieving increased bonding area.
Abstract: A method and apparatus for insulating a plurality of electrically conductive elements and to produce electrical cable where the method includes heating the unformed insulative material and conductive elements, applying pressure and simultaneously removing heat with a pair of rollers at a relatively low temperature and applying pressure and heat to preselected regions only of the insulative material. The method and apparatus further allow preselected portions of the cable to be unbonded so as to facilitate access to the conductive elements by simply interrupting the application of pressure to the preselected portions. The heat, press and cool and press and bond method may also be accomplished in a step and repeat process using presses to insulative flexible circuits. The above method and apparatus provide more reliable bonding at an accelerated rate of production.
Abstract: A method of manufacturing an open cellular article constructed of a plurality of spaced walls of relatively weak bondable material defining a plurality of elongated passages therethrough which are filled with a disintegratable filler material having sufficient form and strength initially to maintain the walls in their predetermined precisely spaced relation and after bonding of the walls into an integral unit such filler material being conveniently removable from the article to reestablish the passages between the walls.