| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 264173110 | Having three or more layers of at least two different compositions | 22 |
| 20100258970 | MULTI LAYER EXTRUSION INCLUDING ANIMAL DETERRENT - A pet chew may be manufactured by co-extruding multiple compositions to form a layered construction. Separate extruders may be provided to tailor processing conditions to heat and/or shear sensitive compositions, such as nutritional additives, and additives that deter an animal from chewing, the respective extrudates may be combined such that relatively higher levels of additives may be provided as an inner or outer layer. | 10-14-2010 |
| 20110272849 | FEEDBLOCK FOR MANUFACTURING MULTILAYER POLYMERIC FILMS - A feedblock including a first packet creator that forms a first packet including a first plurality of polymeric layers, the first plurality of layers including at least four first individual polymeric layers; and a second packet creator that forms a second packet including a second plurality of polymeric layers, the second plurality of layers including at least four second individual polymeric layers, wherein the first and second packet creators are configured such that, for each packet creator, respective individual polymeric layers of the plurality of polymeric layers are formed at approximately the same time. The feedblock may include a packet combiner that receives and combines the first and second primary packets to form a multilayer stream. In some examples, at least one of the first and second primary packets may be spread in the cross-web direction prior to being combined with one another. | 11-10-2011 |
| 20120313286 | FLUOROPOLYMER CONTAINING LAMINATES - The multilayer film serves as a laminate. The film is a multilayered structure that, in its base form, encompasses an intermediate layer with first and second outer layer affixed to opposing sides of the intermediate layer. The first outer layer is a semi-crystalline fluoropolymer. The intermediate layer includes a polyester and the second outer layer is an olefinic polymer. The layers are bonded together in the noted order to provide the multilayer film. | 12-13-2012 |
| 20140203473 | MULTI-LAYERED FUEL TUBING - The invention describes a flexible tubular article for transport of volatile hydrocarbons comprising: (a) an inner layer of a polyvinylidene difluoride (PVDF) polymer or a polyvinylidene difluoride copolymer; (b) an intermediate thermoplastic polyurethane (TPU) layer extruded in tubular form over the inner PVDF layer, and (c) a polyvinyl chloride polymer extruded in tubular form over the outside surface of the intermediate layer and being coextensive therewith. The tubular articles of the invention have a maximum permeation rating of 15 g/m | 07-24-2014 |
| 20140210128 | POLYMER INTERLAYERS COMPRISING SKIN LAYERS - The present invention is in the field of polymer interlayers used in multiple layer glass panels, and specifically the present invention is in the field of various performance enhancing agents for polymer interlayers and methods of effectively incorporating such performance enhancing agents into interlayers. | 07-31-2014 |
| 20150028515 | HEAT SEALABLE MONOAXIALLY-ORIENTED PROPYLENE-BASED FILM WITH DIRECTIONAL TEAR - A monoaxially oriented film including heat sealable layer including an ethylene-propylene impact copolymer and a metallocene-catalyzed propylene-butene elastomer. The heat sealable layer may include a metallocene-catalyzed ethylene-butene elastomer. The film is oriented at least 4 times in the machine direction and exhibits excellent linear directional tear properties in the machine direction and excellent heat seal performance. This film formulation and orientation is suitable for pouch applications requiring an “easy-tear” linear tear feature and excellent hermetic seal properties, particularly for retort pouches. | 01-29-2015 |
| 264173120 | Melt extrusion (e.g., co-extrusion, etc.) | 16 |
| 20090085243 | APPARATUS AND METHOD FOR PRODUCING A MULTI-LAYER PARISON HAVING A LAYER OF VARYING THICKNESS - An apparatus for producing a parison having a plurality of resin layers and at least one resin layer of varying thickness is disclosed. The parison is used to form containers in a blow mold machine. An extruder is in communication with a flow head to form the parison. The apparatus includes a valve block having a duct providing communication between a second extruder and the flow head. Flow of resin from the second extruder directly to the flow head is controlled by a valve in the valve block. An accumulator cylinder and piston are also in communication with the duct and control the resin pressure within the duct. Opening and closing the valve and stroking the piston sends resin from the second extruder to the flow head and forms a resin layer having a varying thickness on the parison. A method of forming a varying layer is also disclosed. | 04-02-2009 |
| 20100140832 | UNVULCANIZED RUBBER EXTRUDER AND PROCESS FOR PRODUCING UNVULCANIZED RUBBER - An unvulcanized rubber extruder that realizes extrusion forming of an unvulcanized rubber extrudate ensuring manufacturing of a high-quality tire without any increase of tire manufacturing steps. In the vicinity of left side end portion, in the drawing, of unvulcanized rubber (A) (rubber chafer part), unvulcanized rubber (B) flows along parallel wall ( | 06-10-2010 |
| 20100219555 | Method for extrusion of multi-layer coated elongate member - A method of making a multi-layer insulated elongate member is disclosed. The method includes providing an elongate member and tube extruding a first thermoplastic material onto an outer surface of the elongate member to create a first layer having a thickness less than or equal to 0.064 mm (0.0025 inch) using a first extruder apparatus. The method further includes using a second extruder apparatus for pressure extruding a compound comprising a second thermoplastic material different from the first thermoplastic material onto an outer surface of the first layer to create a second layer. The second layer fully wets the first layer and the flow point of the first thermoplastic material is at least 30° C. greater than the extrusion melt temperature of the second thermoplastic material. | 09-02-2010 |
| 20120228796 | APPARATUS AND METHOD FOR MANUFACTURING MULTIPLEX INTERLAYER FOR SAFETY GLASS - Provided is a method for manufacturing a multilayered interlayer for safety glass that allows for reliable and easy formation of inserted layers having a larger coloring layer. The method for manufacturing includes processes for respectively delivering, from a first and a second extruding machine, thermoplastic resin composition(s) for the outermost and inserted layers formation in a molten state to the first and second delivering hole of the guide for layer disposition; a process for simultaneously forcing the thermoplastic resin composition(s) to respectively arrive in the outlets for the outermost and inserted layers formation through the flow paths for the outermost and inserted layers formation; and a process for extruding the thermoplastic resin composition(s) for the outermost and inserted layers formation as a multilayer film in a condition where the thermoplastic resin composition for the inserted layer formation is disposed between the thermoplastic resin compositions for the outermost layers formation. | 09-13-2012 |
| 20130292871 | FEEDBLOCK MULTIPLIER WITH THICKNESS GRADIENT VARIATION, FEEDBLOCK SYSTEM, METHOD, AND RELATED MULTILAYER STRUCTURE - Disclosed are a feedblock multiplier with thickness gradient variation, a feedblock system, a method, and multilayer structure made by the method. The feedblock multiplier combines the functionalities of feedblock and multiplier conventionally used for producing the multilayer structure. The feedblock multiplier includes an input section for feeding fluid materials. A feedblock section is included for dividing the fluid delivered into multiple channels correspondingly. The fluids in the channels are segmented into two or more fluid segments by a segmenting section. The each fluid segment is delivered through corresponding channel-conversion section with thickness-gradient variation in the feedblock multiplier. Each channel-conversion section includes multiple channels with configurable positions. The fluids are then combined in a multiplier section for producing the multilayer structure with overlapped layers. The multilayer structure is outputted from an extruding section. | 11-07-2013 |
| 20140151923 | Highly Flexible Foil Composite Material and Its Use in Card Bodies - A foil composite material usable as a layer in a card body of a portable data carrier, that includes one outer plastic layer, one inner plastic layer and one second outer plastic layer. All the layers jointly form a coextruded composite, and the plastic of one outer layer is a thermoplastic polymer or a mixture thereof. The plastic of the one inner layer is a mixture of at least one thermoplastic elastomer and at least one thermoplastic polymer. The plastic of the second outer layer is a thermoplastic polymer or a mixture thereof. | 06-05-2014 |
| 20160075071 | METHOD FOR MANUFACTURING MULTILAYER STRUCTURE USING A FEEDBLOCK MULTIPLIER WITH THICKNESS-GRADIENT VARIATION - Disclosed are a feedblock multiplier with thickness gradient variation, a feedblock system, a method, and multilayer structure made by the method. The feedblock multiplier combines the functionalities of feedblock and multiplier conventionally used for producing the multilayer structure. The feedblock multiplier includes an input section for feeding fluid materials. A feedblock section is included for dividing the fluid delivered into multiple channels correspondingly. The fluids in the channels are segmented into two or more fluid segments by a segmenting section. The each fluid segment is delivered through corresponding channel-conversion section with thickness-gradient variation in the feedblock multiplier. Each channel-conversion section includes multiple channels with configurable positions. The fluids are then combined in a multiplier section for producing the multilayer structure with overlapped layers. The multilayer structure is outputted from an extruding section. | 03-17-2016 |
| 264173140 | Polyamide (e.g., nylon, etc.) or addition polymer of at least one monoethylenically unsaturated monomer (e.g., polyethylene, polypropylene, polystyrene, etc.) containing layer | 6 |
| 20090045543 | METHOD OF MAKING BIAXIALLY ORIENTED POLYOLEFIN FILM FOR COLD SEAL APPLICATIONS - The present invention relates to methods of manufacturing multi-layered polyolefin films that provide excellent adhesion to cold seal cohesive formulations. A surface of the film is discharge-treated. It has been found that when the discharge-treated surface has at least 0.3% nitrogen functional groups, it provides an excellent cold seal receptive surface. A biaxially oriented polypropylene film made according the invention may also have a second skin layer, opposite the first layer, which may be used for metallizing, laminating, or printing. | 02-19-2009 |
| 20130221564 | FILM STRUCTURE WIHT HIGH OXYGEN BARRIER PROPERTIES AND METHOD OF MANUFACTURING SUCH A FILM STRUCTURE - Film structure of at least five layers, two outer layers ( | 08-29-2013 |
| 20140265010 | METHOD OF PREPARING PHOTOCHROMIC-DICHROIC FILMS HAVING REDUCED OPTICAL DISTORTION - The present invention relates to a method of preparing a photochromic-dichroic film. The method includes forming a molten extrudate that includes a first molten thermoplastic layer that includes one or more photochromic-dichroic compounds, that is interposed between separate second and third outer molten thermoplastic layers. The molten extrudate is cooled so as to form a multilayer film that includes a first layer that includes one or more photochromic-dichroic compounds, that is interposed between separate second and third outer layers. The second and third outer layers are removed from the first layer of the multilayer film. The resulting sole first layer, which is retained, defines the photochromic-dichroic layer, which exhibits reduced or minimal optical distortion. | 09-18-2014 |
| 20140327174 | AXIALLY ORIENTED CONFINED CRYSTALLIZATION MULTILAYER FILMS - A method of forming a confined crystallization multilayer film includes coextruding a plurality of first polymer layers and a plurality of second polymer layer to form a multilayer film wherein each first polymer layer is sandwiched between second polymer layers and axially orienting the multilayer film at a temperature below the melting temperature (T | 11-06-2014 |
| 20150021810 | RETARDER MANUFACTURING METHOD - A method for producing a phase difference plate includes a step of forming a layered body including a resin layer (a) containing a resin A having a positive intrinsic birefringence, a resin layer (b) that contains a resin B having a negative intrinsic birefringence and is provided on a surface of the resin layer (a), and a resin layer (c) that contains a resin C having a positive intrinsic birefringence and is provided on another surface opposite to the resin layer (a) of the resin layer (b); a first stretching step of stretching the layered body in one direction at a temperature T1 and a stretching ratio of 3 times or more; and a second stretching step of, after the first stretching step, stretching the layered body in another direction that is approximately orthogonal to the stretching direction at a temperature T2 that is lower than the temperature T1 to obtain a phase difference plate, wherein the resin C contains a polymer X having a positive intrinsic birefringence and cross-linked particles of a polymer Y having a negative intrinsic birefringence. | 01-22-2015 |
| 20160031144 | Coextruded Foil Composite Material and Its Use in Card Bodies - A composite film material usable in a data carrier card body includes a first outer plastic layer, an inner plastic layer and a second outer plastic layer, all the layers together forming a co-extruded composite. The plastic material of the first outer layer is a polyethylene terephthalate glycol copolymer (PETG) or contains a PETG, the plastic material of the inner layer is a thermoplastic elastomer (TPC) or containes a TPC, and the plastic material of the second outer layer is a PETG or contains a PETG. | 02-04-2016 |
| 264173150 | Including subsequent reshaping (e.g., stretching, etc.) | 3 |
| 20100327480 | METHOD OF MAKING THERMAL IMAGING ELEMENTS - A method of co-extrusion is used to prepare a thermal imaging element such as a thermal dye receiver element. In this method, two or three of an image receiving layer, an antistatic tie layer, and a compliant layer are co-extruded and these co-extruded multiple layers can be disposed on a support to provide a smooth outer surface and reduced delamination among layers especially in a high humidity environment. | 12-30-2010 |
| 20110241245 | AXIALLY ORIENTED CONFINED CRYSTALLIZATION MULTILAYER FILMS - A method of forming a confined crystallization multilayer film includes coextruding a plurality of first polymer layers and a plurality of second polymer layer to form a multilayer film wherein each first polymer layer is sandwiched between second polymer layers and axially orienting the multilayer film at a temperature below the melting temperature (T | 10-06-2011 |
| 20150352768 | MULTILAYER BIOABSORBABLE SCAFFOLDS AND METHODS OF FABRICATING - A bioabsorbable scaffold composed of a multilayer structure of alternating layers of different polymers is disclosed. The multilayer structure can have 20 to 1000 layers and the individual thickness of the layers can be 0.2 to 5 microns. A method of making the scaffold including a layer multiplying extrusion process is disclosed. | 12-10-2015 |
