Technology — Welding Technology — Technical Education 102. Principles of Gas Welding—Oxacetylene processes, including fusion of mild steels, surface bonding of the non-ferrous alloys, cutting techniques, and the safety factors with respect to gas welding. Five lectures. A (5) 103. Electric Welding Processes—Structural joint designs, hard surfacing, testing, and inspection of arc welding. Five laboratories. W (5) 104. Principles of Arc Welding—Electric arc welding processes; fusion of steels, hard-facing of ferrous and non-ferrous alloys, fundamentals of electrode design, and safety factors involved in the arc welding process. Five lectures. W (5) 105. Inert Welding Processes—Inert gas welding of non- ferrous metals such as stainless steel and aluminum alloys emphasizing testing and inspection requirements of the American Welding Standards. Five laboratories. S (5) 106. Principles of Inert Welding—Non-ferrous alloys and their weldability; construction and maintenance of the inert welding machine. Five lectures. S (5) 115. Welding Blueprint Reading—Interpretation and application of blueprint reading; estimation and cost of materials and structural design as it applied to welding in industry. For majors. One lecture and one laboratory. S (2) 165. Welding Processes—Principles and practices in the fundamentals of arc and acetylene welding for those students in related fields; fusion welding of sheet and plate ferrous metals. Two laboratories. A W S (2) 251. Gas Fusion Processes—Non-ferrous alloys and the newer developments in weld metals and their fluxes. Testing and inspection as required by American welding standards. Prerequisites: Welding 101 and 102. Five laboratories. A (5) 252. Principles of Gas Fusion—Current developments in the oxyacetylene welding process; research and experimental work involved in a new industrial technique. Five lectures. A (5) 253. Advanced Arc Welding Processes—Principles and applications of advanced arc welding; weldability of ferrous and the non-ferrous metals, design, and cost estimating; inspection and testing. Field trips to Utah's leading industrial areas. Prerequisite: Welding 3-4. Five laboratories. W (5) 255. Testing and Inspection—Industrial tests and inspection required to meet industrial standards. Prerequisite: Manufactur ing Engineering Technology 236. Two lectures and three laboratories. S (5) 260. Electric Arc Welding Processes—A basic course of principles and practices in electric arc welding. Latest advancements, research studies of industry of alloy welding is included. One lecture, two laboratories. S (3) 261. Oxyacetylene Welding Processes—A basic course of principles and practices of oxyacetylene welding. Current advancements and developments in the various facets of modern uses of the oxyacetylene welding processes is included. One lecture, two laboratories. W (3) 365. Advanced Welding Processes—A composite of arc and acetylene welding for students in related field. Two research papers on advanced fabrication and design are required. Two laboratories. A W S (2) WELDING MAJOR Freshman (Example Only) Sophomore Courses Credits Welding 101 5 Welding 102 5 Welding 103 5 Welding 104 5 Welding 105 5 Welding 106 5 Technical Education 101 4 English 108 3 Health Education 100 2 Physical Education 3 Machine Tool 127 3 Welding 115 2 Eng. Graphics 115 2 44 Courses Credits Welding 251 5 Welding 252 5 Welding 253 5 Welding 255 5 Mfg. Eng. Tech. 236 4 Eng. Graphics 117 2 Auto Service 140 3 Psychology 101 3 Electronics 341 3 Elective 9 Economics 101 5 49 AREA OF TECHNICAL EDUCATION Two-Year Certificate or Associate of Science Degree Professors, Dale S. Cowgill, A. Kent Randall; Associate Professors, John A. Gaz, Grant E. Horsley, Clifton B. Larson, Hurschell Urie, Ross W. Eskelson, Robert E. Wallentine; Assistant Professors, Charles C. Crittenden, Steven H. Eichmeier, Blaine M. Hartog, Sidney D. Jensen, James W. Lewis, Leonard A. Nicholas, Robert A. Salmond, Bennion L. Tueller, Kent Robertson, C. Austin Seager; Instructors, Ralph A. Anderson, Jay A. Davis, Ronald 332 333