Spot Welding

Questions and Answers

Standard full size electrode designs are specified by the Resistance Welding Manufacturing Alliance – RWMA. These designs can be found in the RWMA Resistance Welding Manual. The RWMA standard sizes are #4, #5, #6 and #7. These sizes represent full size electrodes with body dimensions of 1/2”, 5/8”, 3/4” and 7/8” diameter respectively. These electrodes can be purchased in RWMA Class 1, 2 or 3 materials. RWMA face configurations A, B, C, D, E and F are standard. Full size electrodes are stocked in sizes 4, 5, & 6 in most Classes of material and nose designs. Size 7 is available is some configurations. Full size electrodes are available in overall lengths from 1to 4”.

Standard female cap designs are specified by the Resistance Welding Manufacturers Alliance – RWMA. These designs can be found in the RWMA Resistance Welding Manual. The standard sizes are #4, #5 and #6. These sizes represent female cap electrodes with body sizes of ½”, 5/8” and ¾” Diameter body sizes respectively. These electrodes can be purchased in RWMA Class 1, 2 or 3 materials. RWMA Face configurations A, B, C, D, E and F are standard. Female caps are stocked in these sizes and are usually available from stock in most standard nose configurations.

Standard male cap designs are specified by the Resistance Welding Manufacturing Alliance – RWMA. These designs can be found in the RWMA Resistance Welding Manual. The standard sizes are #4, #5 and #6. These sizes represent male cap electrodes with body sizes of ½”, 5/8” and ¾” Diameter body sizes respectively. Caps can be purchased in RWMA Class 1, 2 or 3 materials. RWMA Face configurations A, B, C, D, E and F are standard. Male caps are stocked in these sizes and are usually available from stock in most standard nose configurations.

The most stocked electrode taper sizes are RWMA #4 and #5. These sizes are readily available in either full size electrodes or male and female caps. In these sizes most standard face sizes A-pointed, B-dome, C-flat, D-offset, E-truncated & F-radius are stocked.

Poor heat balance in a resistance weld is when the variables cause the weld nugget to form in a location other than the desired mating/faying surfaces. This can be caused by welding two different materials, varying thicknesses, or different surface coatings. Different electrode material, size, shape or contact face or perpendicularity to the part. Water cooling or lack of same can cause variations also. The first step is to examine the part and determine what is causing the nugget to form in this undesired location.