Welding and soldering are an integral part of manufacturing, construction, and pipeline maintenance that uses high heat to join two or more materials. Different types of welding (for example, arc, plastic, spot, and stud) use equipment specialized for the application and the materials joined. Soldering joins circuit board components and copper pipe. Filler metals melt easily when heated to fill the gaps between the materials being joined to ensure a strong bond. Welding and soldering area protection closes off areas or covers nearby surfaces to protect against damage caused by sparks and UV light. Fume extraction removes airborne contaminants that cause a health risk to workers. Welding tables, fixtures, and preparation tools mark cut and weld lines and hold workpieces in place. Inspection and testing ensures welds don't have defects that can affect performance. Weld cleaning removes contaminants and restores and passivates surfaces.
Westward temperature indicator. Low-cost method of accurately measuring surface temperatures. Accurate to within 1% of stated temperature. Meets ANSI/ASME Code B31 and B31.3, AWS D1.1 and ASME Code sec I, III and VII, NIST traceable.
Westward temperature indicator. Low-cost method of accurately measuring surface temperatures. Accurate to within 1% of stated temperature. Meets ANSI/ASME Code B31 and B31.3, AWS D1.1 and ASME Code sec I, III and VII, NIST traceable.
Westward temperature indicator. Low-cost method of accurately measuring surface temperatures. Accurate to within 1% of stated temperature. Meets ANSI/ASME Code B31 and B31.3, AWS D1.1 and ASME Code sec I, III and VII, NIST traceable.
Westward temperature indicator. Low-cost method of accurately measuring surface temperatures. Accurate to within 1% of stated temperature. Meets ANSI/ASME Code B31 and B31.3, AWS D1.1 and ASME Code sec I, III and VII, NIST traceable.
Westward temperature indicator. Low-cost method of accurately measuring surface temperatures. Accurate to within 1% of stated temperature. Meets ANSI/ASME Code B31 and B31.3, AWS D1.1 and ASME Code sec I, III and VII, NIST traceable.
Westward temperature indicator. Low-cost method of accurately measuring surface temperatures. Accurate to within 1% of stated temperature. Meets ANSI/ASME Code B31 and B31.3, AWS D1.1 and ASME Code sec I, III and VII, NIST traceable.
This H-12 TIG welding rod is made of tool steel. In addition, it is designed for use with the following materials: tool steel. It has an overall length of 36 inches, an overall diameter of 0.125 inch, and weighs five pounds. It can be used for TIG, in positions including flat, horizontal, overhead, vertical-down, vertical-up.
This H-12 TIG welding rod is made of tool steel. In addition, it is designed for use with the following materials: tool steel. It has an overall length of 36 inches, an overall diameter of 0.125 inch, and weighs five pounds. It can be used for TIG, in positions including flat, horizontal, overhead, vertical-down, vertical-up.
This R45 gas welding rod is made of carbon steel. In addition, it is designed for use with the following materials: carbon steel to carbon steel. It has an overall length of 36 inches, an overall diameter of 1/8 inch, and weighs 10 pounds. It can be used for gas welding, in positions including flat, horizontal and meets the standards for AWS A5.2.
This R45 gas welding rod is made of carbon steel. In addition, it is designed for use with the following materials: carbon steel to carbon steel. It has an overall length of 36 inches, an overall diameter of 1/8 inch, and weighs 10 pounds. It can be used for gas welding, in positions including flat, horizontal and meets the standards for AWS A5.2.
This H-12 TIG welding rod is made of tool steel. In addition, it is designed for use with the following materials: tool steel. It has an overall length of 36 inches, an overall diameter of 0.0938 inches, and weighs one pound. It can be used for TIG, in positions including flat, horizontal, overhead, vertical-down, vertical-up.
This H-12 TIG welding rod is made of tool steel. In addition, it is designed for use with the following materials: tool steel. It has an overall length of 36 inches, an overall diameter of 0.0938 inches, and weighs one pound. It can be used for TIG, in positions including flat, horizontal, overhead, vertical-down, vertical-up.
This H-13 TIG welding rod is made of tool steel. In addition, it is designed for use with the following materials: tool steel. It has an overall length of 36 inches, an overall diameter of 0.0625 inch, and weighs five pounds. It can be used for TIG, in positions including flat, horizontal, overhead, vertical-down, vertical-up.
This H-13 TIG welding rod is made of tool steel. In addition, it is designed for use with the following materials: tool steel. It has an overall length of 36 inches, an overall diameter of 0.0625 inch, and weighs five pounds. It can be used for TIG, in positions including flat, horizontal, overhead, vertical-down, vertical-up.
This H-13 TIG welding rod is made of tool steel. In addition, it is designed for use with the following materials: tool steel. It has an overall length of 36 inches, an overall diameter of 0.0938 inches, and weighs five pounds. It can be used for TIG, in positions including flat, horizontal, overhead, vertical-down, vertical-up.
This H-13 TIG welding rod is made of tool steel. In addition, it is designed for use with the following materials: tool steel. It has an overall length of 36 inches, an overall diameter of 0.0938 inches, and weighs five pounds. It can be used for TIG, in positions including flat, horizontal, overhead, vertical-down, vertical-up.
This PRO butane soldering iron kit features accommodates the optional tips (purchase separately) and includes orifice assembly, protective cap, solder dispenser, sponge. In addition, it is designed for applications including desoldering, heat shrink, pinpoint heat, soldering, strip insulation, torch. It meets the standards for CE listed, GS listed.
This PRO butane soldering iron kit features accommodates the optional tips (purchase separately) and includes orifice assembly, protective cap, solder dispenser, sponge. In addition, it is designed for applications including desoldering, heat shrink, pinpoint heat, soldering, strip insulation, torch. It meets the standards for CE listed, GS listed.
Westward temperature indicator. Low-cost method of accurately measuring surface temperatures. Accurate to within 1% of stated temperature. Meets ANSI/ASME Code B31 and B31.3, AWS D1.1 and ASME Code sec I, III and VII, NIST traceable.
Westward temperature indicator. Low-cost method of accurately measuring surface temperatures. Accurate to within 1% of stated temperature. Meets ANSI/ASME Code B31 and B31.3, AWS D1.1 and ASME Code sec I, III and VII, NIST traceable.
Westward temperature indicator. Low-cost method of accurately measuring surface temperatures. Accurate to within 1% of stated temperature. Meets ANSI/ASME Code B31 and B31.3, AWS D1.1 and ASME Code sec I, III and VII, NIST traceable.
Westward temperature indicator. Low-cost method of accurately measuring surface temperatures. Accurate to within 1% of stated temperature. Meets ANSI/ASME Code B31 and B31.3, AWS D1.1 and ASME Code sec I, III and VII, NIST traceable.
Westward temperature indicator. Low-cost method of accurately measuring surface temperatures. Accurate to within 1% of stated temperature. Meets ANSI/ASME Code B31 and B31.3, AWS D1.1 and ASME Code sec I, III and VII, NIST traceable.
Westward temperature indicator. Low-cost method of accurately measuring surface temperatures. Accurate to within 1% of stated temperature. Meets ANSI/ASME Code B31 and B31.3, AWS D1.1 and ASME Code sec I, III and VII, NIST traceable.
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