MegaStir Technologies, LLC Patent applications |
Patent application number | Title | Published |
20140263574 | OUT OF POSITION FRICTION STIR WELDING OF CASING AND SMALL DIAMETER TUBING OR PIPE - A system and method for friction stir welding of small diameter tubing, wherein the small diameter tubing is held in a correct position with a grasp sufficient to perform FSW when the tubing is comprised of high melting temperature materials, wherein the small diameter tubing can be rotated by the positioning and holding system while a FSW tool is held stationary, or vice versa, wherein internal mandrels are also described which can fit inside the smaller dimensions of the small diameter tubing and expand to provide a counter force to prevent deformation of the tubing when forces are applied by the FSW tool, wherein new FSW tool geometries are also described which enable the FSW tool to direct more heat on a tool/workpiece interface to counteract a lack of contact between the FSW shoulder and the workpiece because of tube curvature, and wherein the FSW tool is positioned on a small diameter tube by trailing the joint to provide desirable heating at the joint/workpiece interface and surface finishing. | 09-18-2014 |
20140123470 | FRICTION BIT JOINING OF MATERIALS USING A FRICTION RIVET - A system and method of joining at least two workpieces together using a friction rivet and a friction rivet cap that are friction stirred together after a cutting tip or cutting feature on the friction rivet cuts through workpieces and is then bonded to the friction rivet cap, and wherein the friction rivet cap may be excluded if the friction rivet includes a hollow in the cutting tip, the hollow being flared after the friction rivets cuts through the workpieces to thereby create an integral rivet cap in the end of the friction rivet. | 05-08-2014 |
20140034710 | FRICTION STIR WELDING USING A SUPERABRASIVE TOOL - A probe for friction stir welding MMCs, ferrous alloys, non-ferrous alloys, and superalloys, as well as non-ferrous alloys, the probe including a shank, a shoulder, and a pin disposed through the shoulder and into the shank, wherein the pin and the shoulder at least include a coating comprised of a superabrasive material, the pin and shoulder being designed to reduce stress risers, disposing a collar around a portion of the shoulder and the shank to thereby prevent movement of the shoulder relative to the shank, and incorporating thermal management by providing a thermal flow barrier between the shoulder and the shank, and between the collar and the tool. | 02-06-2014 |
20130228612 | FRICTION BIT JOINING OF MATERIALS - A system and method of using a friction stir tool having a bit that is at least partially consumable may be improved by providing enhanced cutting geometries on the bit, modifying stop times to improve bit joining, including automated tracking in an automatic friction bit joining method, providing automated feeding and automated friction bit joining, making the friction bit joining system portable, enabling the friction stir tool to be usable by a robotic device or as a handheld device, friction bit joining a plurality of different layers even if only a base material is solid-state joinable with the consumable bit, performing metal stitching on traditionally unweldable materials, performing solid-state plug welding, and operating the friction bit tool at variable RPMs in order to improve bit joining characteristics. | 09-05-2013 |
20130206818 | SYSTEM AND METHOD FOR HOLDING MATERIALS HAVING ARCUATE SURFACES IN PLACE FOR FRICTION STIR WELDING OR PROCESSING - A system and method for holding a friction stir processing material in place on a substrate having a curved surface for the purpose of mixing the friction stir processing material into the curved substrate using a solid-state process, wherein the system includes selecting one of a variety of mechanical means of attaching the friction stir processing material to the substrate that will enable friction stir processing to be performed that is economical, efficient and safe. | 08-15-2013 |
20130098973 | METHODS TO FABRICATE FULLY ENCLOSED HOLLOW STRUCTURES USING FRICTION STIR WELDING - A method is taught for creating a hollow sphere that is created by joining two cylinders together that have a semispherical hollow formed in the ends being joined together, wherein a metallic reinforcing disk is inserted at an interface between the two ends of the cylinders, wherein the two cylinders and reinforcing disk are joined using friction stir welding to create an inner sphere from the two hemispherical hollows that is bisected by the metallic reinforcing disk, and wherein the joined cylinders and reinforcing disk are machined to thereby create an outer spherical surface that is centered around the inner sphere. | 04-25-2013 |
20130068825 | MATERIAL SURFACE MODIFICATION USING FRICTION STIR WELDING HYBRID PROCESS - A system and method for modifying a work piece surface of high melting temperature materials such as Advanced High Strength Steels, wherein a friction stir welding tool may include cutting elements located on the outside diameter of a collar assembly, wherein the collar assembly may be retrofitted for existing friction stir welding tools, or may be designed as a custom attachment for a new hybrid friction stir welding tool, wherein the surface of the work piece may be modified by removing detrimental flash and burr created during operation of the friction stir welding tool. | 03-21-2013 |
20130062395 | FRICTION STIR WELDING USING A SUPERABRASIVE TOOL - A probe for friction stir welding MMCs, ferrous alloys, non-ferrous alloys, and superalloys, as well as non-ferrous alloys, the probe including a shank, a shoulder, and a pin disposed through the shoulder and into the shank, wherein the pin and the shoulder at least include a coating comprised of a superabrasive material, the pin and shoulder being designed to reduce stress risers, disposing a collar around a portion of the shoulder and the shank to thereby prevent movement of the shoulder relative to the shank, and incorporating thermal management by providing a thermal flow barrier between the shoulder and the shank, and between the collar and the tool. | 03-14-2013 |
20120273555 | FRICTION STIRRING AND ITS APPLICATION TO DRILL BITS, OIL FIELD AND MINING TOOLS, AND COMPONENTS IN OTHER INDUSTRIAL APPLICATIONS - Solid state processing is performed on a workpiece that operates alone or is a component of equipment used in various demanding, harsh and wearing environments in which failure of a product could compromise safety or the environment or otherwise result in significant cost for repair or replacement, wherein the solid state processing performed by using a tool capable of friction stir processing, friction stir mixing, or friction stir welding results in a workpiece that offers a longer life-cycle and/or improved performance and/or improved reliability as a result of the solid state processing. | 11-01-2012 |
20120227546 | SOLID STATE PROCESSING OF HAND-HELD KNIFE BLADES TO IMPROVE BLADE PERFORMANCE - A system and method for friction stir processing of a hand-held cutting edge, wherein friction stir processing techniques are used to modify the properties of the hand-held cutting edge to obtain superior edge retention and superior resistance to chipping of the hand-held cutting edge. | 09-13-2012 |
20110073634 | THREE-BODY JOINING USING FRICTION STIR PROCESSING TECHNIQUES - A friction stir tool is provided to perform friction stir riveting using a partially consumable pin, wherein the pin includes a cutting edge on a bottom surface thereof, wherein the tool is rotated at a first speed to enable cutting by the pin into a first material that is overlapping a second material, wherein after the pin has cut to a sufficient depth, the rotational speed of the tool is increased to thereby enable plasticization of the consumable pin, the first material, and the second material, wherein the tool is then rapidly decelerated until stopped, enabling diffusion bonding between the pin, the first material and the second material. | 03-31-2011 |