Class / Patent application number | Description | Number of patent applications / Date published |
264454000 | Direct application of fluid pressure (e.g., blow molding, etc.) | 31 |
20080315464 | METHOD OF MANUFACTURING A COMPOSITE FILTER MEDIA - A method of making a composite filter media includes, in an exemplary embodiment, forming a nonwoven fabric mat that includes a plurality of synthetic fibers by a spunbond process, and calendaring the nonwoven fabric mat with embossing calendar rolls to form a bond area pattern comprising a plurality of substantially parallel discontinuous lines of bond area to bond the synthetic fibers together to form a nonwoven fabric, the nonwoven fabric having a minimum filtration efficiency of about 50%, measured in accordance with ASHRAE 52.2-1999 test procedure. The method also includes applying a nanofiber layer by electro-blown spinning a polymer solution to form a plurality of nanofibers on at least one side of the nonwoven fabric mat to form the composite filter media, the composite filter media having a minimum filtration efficiency of about 75%, measured in accordance with ASHRAE 52.2-1999 test procedure. | 12-25-2008 |
20090014919 | AGGREGATE-BASED MANDRELS FOR COMPOSITE PART PRODUCTION AND COMPOSITE PART PRODUCTION METHODS - A method for forming a composite structure, using a mandrel that is later removed from the composite structure, involves production of a mandrel by depositing a particulate mixture, including an aggregate and a binder, into a mold and removing the mandrel from the mold. The mandrel may be treated while still in the mold by heating, curing with an agent, microwave energy, or by some combination thereof. Once finished, the mandrel can be used in manufacturing polymer and/or composite components. The mandrel can also be include materials that can be easily removed from the finished composite structure by water, shakeout, chemically dissolving, or by some combination thereof. | 01-15-2009 |
20090102100 | FIBER FORMATION BY ELECTRICAL-MECHANICAL SPINNING - A method of fiber formation by electrical-mechanical spinning is disclosed. A liquid starting material is fed to a rotating annular member such as a spinning cup. The liquid material is directed by centrifugal force to the periphery of the annular member where it is expelled in fibrous form. An electric charge is imposed on the liquid while on the annular member or while immediately being expelled from the annular member. | 04-23-2009 |
20100007060 | Process and Apparatus for the Blow Molding of Containers Using Wall-Thickness Measurement of the Molded Article - The process and the apparatus serve for the blow moulding of containers ( | 01-14-2010 |
20100007061 | METHOD AND INSTALLATION FOR THE PRODUCTION OF CONTAINERS - The invention relates to a method or producing a container from a thermoplastic blank ( | 01-14-2010 |
20100072673 | METHOD AND INSTALLATION FOR THE PRODUCTION OF CONTAINERS - The invention relates to a method of producing a container from a thermoplastic blank ( | 03-25-2010 |
20100127434 | EXTRUDING ORGANIC POLYMERS - The instant invention generally provides a process for extruding a melt of a mixture comprising a molecularly self-assembling (MSA) material and at least one first rheological additive to give a shaped MSA material, a shaped MSA material produced by the process, and an article comprising the shaped MSA material. The instant invention also generally provides a composition comprising a MSA material and at least one second rheological additive, a process of electrospinning the composition, and a fiber prepared by the electrospinning process. | 05-27-2010 |
20110006462 | METHOD AND SYSTEM FOR MOLDLESS BOTTLE MANUFACTURING - A method and/or system for forming a plastic bottle from a preform without the use of a mold or a complete mold are provided. The technique includes selectively injecting heat into the preform using narrowband irradiation devices emitting irradiation in a narrow wavelength band matching desired absorptive characteristics of selective portions of the preform according to a predetermined heat signature to achieve a three-dimensional heat profile in the preform. The heat profile corresponds to a desired shape of a finished bottle and facilitates self-limiting stretching of the selected portions of the preform to achieve the desired shape. Using the technique, air is selectively injected into the preform to form in free air the finished bottle having the desired shape. | 01-13-2011 |
20110012295 | METHOD OF STRETCH-BLOW-MOULDING A BEVERAGE CONTAINER - A method of stretch-blow-moulding a beverage container for containing a carbonized beverage which method comprises providing a preform ( | 01-20-2011 |
20120126456 | Apparatus and method of producing plastics material containers - An apparatus for the conditioning of plastics material pre-forms with a tempering space for receiving a plurality of plastics material pre-forms, with a supply device a removal device, and a conveying device which conveys the plastics material pre-forms from the supply device to the removal device in such a way that each plastics material pre-form remains in the tempering space for a preset duration of the dwell period. The temperature of the plastics material pre-forms upon leaving the removal device is substantially constant irrespective of a duration of the dwell period of the plastics material pre-forms in the tempering space and the conveying device is designed in such a way that each plastics material perform remains in the tempering space for a period of time of at least five minutes. | 05-24-2012 |
20120292827 | METHOD AND APPARATUS FOR ASEPTIC MOULDING OF CONTAINERS OF PLASTIC MATERIAL - Method for aseptic moulding of containers ( | 11-22-2012 |
20130140745 | METHOD FOR PRODUCING AND TREATING CONTAINERS - A method for producing plastic containers by a production process, which is either drape forming and blow molding, using a preform in a drape forming or blow molding machine, and for subsequent treatment of the plastic containers in a treatment station of a container treatment line includes, prior to completion of the production process, determining first positional data associated with the container at a location, wherein the first positional data is selected from the group consisting of angular position of a container and angular position of a design feature on the container, and wherein the location is selected from the group consisting of the production machine, a conveying line that precedes the production machine, and a treatment line that precedes the production machine, and passing the first positional data to the treatment station for control thereof. | 06-06-2013 |
20150314493 | METHOD FOR MANUFACTURING A BREAST PROSTHESIS - A method for manufacturing a breast prosthesis, in which a film bag is welded together from at least three film layers for producing at least two chambers. | 11-05-2015 |
20160193775 | DEVICE AND METHOD FOR PRODUCING STERILE CONTAINERS | 07-07-2016 |
264456000 | Utilizing electron arc or electron beam | 4 |
20100025892 | METHOD OF MANUFACTURING A COMPOSITE FILTER MEDIA - A method of making a composite filter media includes, in an exemplary embodiment, forming a nonwoven fabric mat that includes a plurality of synthetic fibers by a spunbond process, and calendering the nonwoven fabric mat with embossing calender rolls to form a bond area pattern comprising a plurality of substantially parallel discontinuous lines of bond area to bond the synthetic fibers together to form a nonwoven fabric, the nonwoven fabric having a filtration efficiency of about 35% to less than 50%, measured in accordance with EN 1822 (1998) test procedure. The method also includes applying a nanofiber layer by electro-blown spinning a polymer solution to form a plurality of nanofibers on at least one side of the nonwoven fabric mat to form the composite filter media, the composite filter media having a minimum filtration efficiency of about 70%, measured in accordance with EN 1822 (1998) test procedure. | 02-04-2010 |
20150061192 | POLYMERIC MATERIAL FOR CONTAINER - A vessel is configured to hold a product in an interior region formed in the vessel. The vessel includes an inner layer arranged to define the interior region and an outer layer. The vessel is formed using a blow-molding process in which a multiple layer parison is blow molded to form the vessel. The multiple layer parison is formed in an extrusion process in which a number of extruders are arranged to co-extrude associated inner and outer parisons to establish the multiple layer parison. | 03-05-2015 |
20150061193 | CONTAINER AND PROCESS FOR MAKING THE SAME - A vessel is configured to hold a product in an interior region formed in the vessel. The vessel includes an inner layer arranged to define the interior region and an outer layer. The vessel is formed using a blow-molding process in which a multiple layer parison is blow molded to form the vessel. The multiple layer parison is formed in an extrusion process in which a number of extruders are arranged to co-extrude associated. | 03-05-2015 |
20150061194 | MULTI-LAYER TUBE AND PROCESS OF MAKING THE SAME - A vessel is configured to hold a product in an interior region formed in the vessel. The vessel includes an inner layer arranged to define the interior region and an outer layer. The vessel is formed using a blow-molding process in which a multiple layer parison is blow molded to form the vessel. The multiple layer parison is formed in an extrusion process in which a number of extruders are arranged to co-extrude associated inner and outer parisons to establish the multiple layer parison. | 03-05-2015 |
264457000 | Induction heating | 1 |
20110272861 | METHOD FOR PRE-TREATING PREFORMS AND BLOW MOLDING APPARATUS FOR PRE-TREATING AND BLOW MOLDING PREFORMS INTO CONTAINERS - A method for pre-treating preforms ( | 11-10-2011 |
264458000 | Infrared radiation | 8 |
20080284063 | Polypropylene container and process for making the same - A multilayer plastic container comprises a layer of a polypropylene and an intermediate layer directly adjacent the layer of polypropylene wherein at least one of the polypropylene and intermediate layers comprises an adhesive such as maleic anhydride incorporated therein to adhere the layer of polypropylene to the layer of EVOH. | 11-20-2008 |
20100295217 | Method and tempering device for heating preforms prior to molding the same to form containers - The invention discloses a method of heating a preform ( | 11-25-2010 |
20110260369 | Method for Making A Personal Care Product - A method of making a personal care product that is capable of dispensing a composition onto a surface in the form of a film without the use of an additional applicator. The method includes providing a collapsible bag at least partially surrounded by an elastically deformable member and, optionally, an outer container body. Potential energy is generated by stretching the elastically deformable member, which is used to dispense the composition in lieu of a propellant or pump. The personal care composition may be a skin care composition, an antifungal, or an enzyme inhibiting composition. | 10-27-2011 |
20120267832 | METHOD AND DEVICE FOR BLOW-MOLDING CONTAINERS - The invention relates to a method and a device for blow-molding containers. A preform produced of a thermoplastic material is subjected to a thermal conditioning process along a transport path in the region of a heating section. The preform is then shaped in a blow mold by the effect of a blowing pressure to give the container. The preform is subjected to a temperature profile at least along part of its transport path in the region of the heating section, said temperature profile being generated by at least one tubular radiation heater. The temperature profile extends in a longitudinal direction of the preform. The radiation emitted by the radiation heater is emitted in different spatial directions with different intensities by a heating device positioning the radiation heater. | 10-25-2012 |
20130026681 | TUBE EXPANSION PROCESSES FOR SEMICRYSTALLINE POLYMERS TO MAXIMIZE FRACTURE TOUGHNESS - Methods for fabricating a polymeric stent with improved fracture toughness including radial expansion of a polymer tube and fabricating a stent from the expanded tube are disclosed. The polymer tube is disposed within a mold and may be heated with radiation. The heated tube radially expands within the mold. | 01-31-2013 |
20130193622 | METHOD FOR FORMING A CONTAINER PROVIDED WITH AN IMPRINT ON AN OVERHEATED AREA - A method of manufacturing a container having a local recessed or relief impression, from a blank ( | 08-01-2013 |
20130221579 | PROCESS FOR FORMING A CONTAINER BY SELECTIVE LASER HEATING AND FREE BLOWING - Method of manufacturing a container ( | 08-29-2013 |
20160129623 | APPARATUS AND METHOD FOR FABRICATING CONTAINERS - An apparatus for fabricating a container. The apparatus includes an injection head establishing fluid communication between an injection liquid source and a preform cavity of a substantially tubular preform through a nozzle of the injection head. The longitudinal axis of said injection head being substantially vertically oriented and passing through the nozzle. The apparatus further includes a plurality of infrared-emitting elements projecting infrared radiation into an expansion zone which is disposed adjacent to the nozzle and about the longitudinal axis. The expansion zone is configured to accommodate the preform when it is positioned in fluid communication with the nozzle. | 05-12-2016 |
264459000 | Polymerizing, cross-linking, or curing | 4 |
20120193835 | METHOD FOR PRODUCING LAMINATE - A method for producing a laminate, including a polymerization step of synthesizing a polyglycolic acid-based resin at a temperature of 200 to 220° C.; a mixing step of mixing 100 parts by mass of the polyglycolic acid-based resin with 0.016 parts by mass or more of a heat stabilizer under a condition that a highest temperature is between 275° C. and 295° C., thereby preparing a polyglycolic acid-based resin composition; and a forming step of forming the polyglycolic acid-based resin composition at a temperature of 230 to 265° C., thereby fabricating a laminate including a layer made of the polyglycolic acid-based resin composition. | 08-02-2012 |
20130285293 | RESIN TRANSFER MOLDING DEVICE AND RESIN TRANSFER MOLDING METHOD - A resin transfer molding (RTM) molding device is designed to mold a fiber-reinforced plastic (FRP) molded body by injecting a resin composition into a mold and by impregnating the molded body therewith. The resin composition is a chain curing polymer (CCP). A CCP accommodating layer is disposed adjacent to an outer side of the molded body. The layer contains the CCP. The layer is provided with a Vf limit value, the value defined by the curing characteristics of the CCP and the characteristics of dissipation of heat from the CCP to the exterior. An element for separating the molded body is disposed between the body and the layer. | 10-31-2013 |
20140197578 | ELECTROPHOTOGRAPHIC ENDLESS BELT, METHOD FOR PRODUCING THE SAME, AND ELECTROPHOTOGRAPHIC APPARATUS - A high-quality electrophotographic endless belt and a method capable of efficiently producing the belt are provided. A method for producing an electrophotographic endless belt comprising a base layer including a thermoplastic resin composition and an inner-surface layer, which includes: (1) forming an energy curable film having a glass transition temperature on an inner surface of a test tube-shaped preform including a thermoplastic resin and then subjecting the preform to blow molding to obtain a blow-molded bottle; (2) irradiating the blow-molded bottle with energy rays to cure the film to form an inner-surface layer; and (3) cutting out an endless belt from the blow-molded bottle having the inner-surface layer obtained in (2). | 07-17-2014 |
20160031171 | ELECTROPHOTOGRAPHIC ENDLESS BELT, METHOD FOR PRODUCING THE SAME, AND ELECTROPHOTOGRAPHIC APPARATUS - A high-quality electrophotographic endless belt and a method capable of efficiently producing the belt are provided. A method for producing an electrophotographic endless belt comprising a base layer including a thermoplastic resin composition and an inner-surface layer, which includes: (1) forming an energy curable film having a glass transition temperature on an inner surface of a test tube-shaped preform including a thermoplastic resin and then subjecting the preform to blow molding to obtain a blow-molded bottle; (2) irradiating the blow-molded bottle with energy rays to cure the film to form an inner-surface layer; and (3) cutting out an endless belt from the blow-molded bottle having the inner-surface layer obtained in (2). | 02-04-2016 |