Abstract: An electrode is disclosed for use in MIG/MAG welding. The electrode comprises an elongated electrode body within which is embedded a metallic filament. In some embodiments, the filament is copper, and is offset from the center of the electrode body. A method is disclosed for forming an electrode. The method may include removing oxidation from a surface of an electrode body, forming the electrode body to a desired size and geometry, removing lubricants from the surface of the electrode body, forming an elongated channel in a surface of the electrode body, depositing a filament in the elongated channel, and forming the electrode body over the filament. Other embodiments are disclosed and claimed.
Type:
Grant
Filed:
September 24, 2013
Date of Patent:
May 15, 2018
Assignee:
THE ESAB GROUP, INC.
Inventors:
Nathanael Micah Colvin, Valerio Cozzi, James G. Schopp
Abstract: Cored wire including at least one thermal barrier layer, distinguished by the fact that said layer is made of a material that pyrolizes upon contact with a metal bath such as liquid metal.
Abstract: A method for efficient production of a welding solid wire free of copper plating. The method consists of drawing by means of roller dies with the help of a dry solid lubricant for drawing which is at least either of sodium stearate or potassium stearate, removing the lubricant from the wire surface by means of a washing device, and applying a lubricant for wire feeding to the surface of the drawn wire by means of an oiling device. High-speed drawing by means of roller dies makes a stock wire into a welding solid wire having the diameter of the finished wire or nearly finished wire. The drawing step is followed by the washing step and the lubricant applying step, which are all accomplished in-line.
Abstract: A welding wire for use in electric arc welding and method of making same, wherein the wire has an effective outer diameter and comprises a length of solid metal formed into a series of distinct segments each having a selected volume and having an indented and non-indented region with the cross sectional area of the solid metal at said non-indented region being greater than the cross sectional area of the solid metal at the indented region.
Type:
Grant
Filed:
August 4, 1999
Date of Patent:
January 30, 2001
Assignee:
Lincoln Global, Inc.
Inventors:
George D. Blankenship, Edward A. Enyedy