Patent application number | Description | Published |
20100123270 | METHOD OF FORMING A PART WITH A FEATURE HAVING A DIE-LOCKED GEOMETRY - A method of forming a part with a feature having a die-locked geometry is disclosed herein. A molding tool used in the method includes at least one die having a cavity defined in a surface thereof, and a protrusion formed in the cavity. The method includes disposing a shape memory polymer insert on the protrusion, where the shape memory polymer insert has i) the die-locked geometry as its temporary shape, and ii) a geometry that is removable from the die-locked geometry as its permanent shape. A material is established in the cavity such that at least a portion of the material conforms to the die-locked geometry, thereby forming the part having the feature with the at least one die-locked geometry. | 05-20-2010 |
20100127427 | PREFORMS AND METHODS OF MAKING THE SAME - A method for making a preform includes creating a pressure differential between an inside and an outside of a perforated shape memory polymer mandrel in its temporary shape. The pressure differential is such that pressure outside the perforated shape memory polymer mandrel is greater than pressure inside the perforated shape memory polymer mandrel. The perforated shape memory polymer mandrel has i) a predetermined preform shape as the temporary shape and ii) a shrunken shape as its permanent shape, wherein the shrunken shape is configured such that it is removable from the predetermined preform shape. The method further includes depositing, as the pressure differential is maintained, at least one material onto a surface of the perforated shape memory polymer mandrel. The at least one material is set in the predetermined preform shape, thereby forming the preform. | 05-27-2010 |
20100181698 | METHODS OF FORMING A PART USING SHAPE MEMORY POLYMERS - One method of forming a part includes deforming a shape memory polymer from a permanent shape into a temporary shape, where the permanent shape of the shape memory polymer is a predetermined part shape and the temporary shape is a shape larger than the predetermined part shape. The shape memory polymer in each of the permanent shape and the temporary shape defines a cavity therein. The method further includes introducing a molding material into the cavity of the shape memory polymer, and reverting the shape memory polymer back into its permanent shape. Other methods for forming the part are also disclosed herein. | 07-22-2010 |
20100249682 | SHAPE MEMORY POLYMER MEDICAL CAST - A medical cast and methods of using the same are disclosed. The method of making includes providing a shape memory polymer (SMP) in a permanent shape which corresponds to a limb's general shape but has a diameter smaller than the limb's diameter. The SMP is converted from the permanent shape into a primary temporary shape, which has a diameter larger than both a diameter of the permanent shape and a diameter of the limb. The limb is at least partially surrounded with the SMP in its primary temporary shape. The SMP is then heated, which causes the primary temporary shape to i) attempt to revert to the permanent shape, and ii) conform to a secondary temporary shape having a diameter smaller than that of the primary temporary shape and larger than that of the permanent shape. The SMP in the secondary temporary shape conforms to the limb. | 09-30-2010 |
20100276434 | STORAGE VESSEL AND METHOD OF FORMING - A storage vessel, such as vessels used in storing high pressure gas is provided. The storage vessel includes a liner having a center portion and a first and second end dome. A first composite layer is disposed circumferentially about the center portion. A second composite layer is disposed about said first composite layer and the first and second end dome. In some embodiments, the second composite layer is formed from a knitted or braided sleeve that is tightened over the liner and first composite layer by pulling the sleeve. | 11-04-2010 |
20100301512 | PACKAGING AND DE-PACKAGING METHODS USING SHAPE MEMORY POLYMERS - Packaging and de-packaging methods using shape memory polymers are disclosed herein. An embodiment of the packaging method involves placing a part adjacent to shape memory polymer in its permanent shape, heating the shape memory polymer to a temperature above its switching temperature, and applying a force to the heated shape memory polymer such that the polymer switches from its permanent shape into a temporary shape. The temporary shape of the shape memory polymer conforms to at least one of i) a shape of the part, or ii) a desired shape for packaging the part. The method further includes cooling the shape memory polymer to a temperature below its switching temperature to set the temporary shape. | 12-02-2010 |
20120000916 | COMPOSITE PRESSURE VESSEL AND METHOD OF ASSEMBLING THE SAME - A composite pressure vessel assembly method includes fitting an end portion of a tubular member into an annular slot formed in an end cap. Sealant may be in the annular slot. The end cap includes an annular groove in an exterior surface of the end cap body portion. A first material layer is formed on an exterior surface of the tubular member. The first material layer includes a first composite material including fibers oriented circumferentially to the tubular member. A second material layer is formed on the first material layer with a portion of the second material layer being disposed into the annular groove, and includes a second composite material including fibers oriented axially to the tubular member. A third material layer is formed adjacent the second material layer and in the annular groove, and includes a third composite material including fibers having an orientation circumferential to the tubular member. | 01-05-2012 |
20120102897 | PACKAGING AND DE-PACKAGING METHODS USING SHAPE MEMORY POLYMERS - A method disclosed herein includes packaging and de-packaging a part. The part is packaged by placing the part adjacent to a shape memory polymer (SMP) while the SMP is in a permanent shape. The SMP is heated to a temperature above a switching temperature of the SMP, and a force is applied to the heated SMP such that it conforms to i) a shape of the part and/or ii) a desired shape for packing the part, thereby changing the SMP from the permanent shape into a temporary shape. The SMP is cooled to a temperature below the switching temperature to set the SMP into the temporary shape. The part is de-packaged by heating the SMP to a temperature above its switching temperature, thereby reverting the SMP from the temporary shape into the permanent shape and releasing the part. The part is removed from the SMP in the permanent shape. | 05-03-2012 |
20120124816 | JOINING MAGNESIUM WITH REINFORCED POLYMER COMPOSITE FASTENERS - A method is disclosed for forming corrosion-resistant joints in a plurality of overlapping thin metal sheet workpieces, at least one of which comprises at least 85% by weight of magnesium sheets. The fastener is a fiber-reinforced polymer rod shaped and sized for insertion into a coaxial opening formed in each sheet and subsequently upset on each end to form a head. The workpiece sheets are deformed to form mechanically-interfering features which cooperatively complement the strength of the fastener, under at least some joint loading patterns. The method may be used for other workpiece and fastener compositions. | 05-24-2012 |
20120251863 | FABRIC COMPOSITE SUPPORT OR ENCLOSURE FOR AN AUTOMOTIVE BATTERY PACK - A battery enclosure comprising a support and a cover fabricated from a thermoset or thermoplastic polymer reinforced by at least a woven fabric reinforcement is described. In an embodiment the reinforcement is a woven glass fabric. | 10-04-2012 |
20130074312 | METHOD OF JOINING MAGNESIUM - Methods of joining a magnesium substrate to a second substrate are provided. A region of the magnesium substrate and a region of the second substrate are aligned to provide an overlap. A region of the overlap is deformed to provide a joint. A polymeric material is disposed in the joint to secure together the magnesium substrate and the second substrate. The joining of the magnesium substrate and the second substrate is facilitated by using a die in various aspects. | 03-28-2013 |
20130108824 | ONE-PIECE FIBER REINFORCEMENT FOR A REINFORCED POLYMER COMBINING ALIGNED AND RANDOM FIBER LAYERS | 05-02-2013 |
20130122246 | STRUCTURAL MEMBERS AND METHODS OF MAKING A STRUCTURAL JOINT - Structural members are disclosed herein. An example of the structural member includes a primary thermoplastic composite structure and a secondary panel having opposed sides and an aperture extending from one of the opposed sides to another of the opposed sides. The secondary panel is formed of metal or a composite material. An adhesive layer bonds the one of the opposed sides to the primary thermoplastic composite structure. A thermoplastic composite doubler plate is in contact with the other of the opposed sides of the secondary panel. The thermoplastic composite doubler plate has a depression formed therein that extends into the aperture. A weld fixedly attaches the thermoplastic composite doubler plate to the primary thermoplastic composite structure through the aperture. Methods for making a structural joint are also disclosed herein. | 05-16-2013 |
20130221692 | BUMPER RETENTION SYSTEM - A system for controlling displacement of a vulnerable component in connection with an impact event at the system. The system includes a frame structure, the vulnerable component, and a composite crush member (a) connected to the frame structure and the vulnerable component, forming a first close connection between the composite crush member and the vulnerable component and a second close connection between the composite crush member and the frame structure, (b) comprises primarily a polymer composite and is configured, and (c) is arranged in the system to fail in a predetermined manner in response to the impact event. The system also includes a retention feature configured and connected, directly or indirectly, to the vulnerable component and to the frame structure to, in operation of the system, maintain at least one of the first close connection and the second close connection during and following the composite crush member the impact event. | 08-29-2013 |
20140238597 | COMPOSITE PRESSURE VESSEL AND METHOD OF ASSEMBLING THE SAME - A method for assembling a composite pressure vessel includes disposing a sealant into each of a plurality of annular slots defined in an exterior surface of a body portion of an end cap. The end cap is aligned with an end portion of a tubular member such that the exterior surface of the body portion of the end cap abuts an interior surface of the tubular member. A force is applied to the tubular member having the end cap aligned with the end portion of the tubular member. The force is applied while rotating the tubular member. The force deforms the tubular member such that the end portion conforms to the plurality of annular slots defined in the body portion of the end cap. | 08-28-2014 |