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Show Technology — Welding Technology — Welding Program: Welding—Associate of Applied Science Degree I. General Requirements: A. A minimum of 99 credit hours. B. Courses in major field require a minimum of 67 credit hours. C. English 101 (3) and 102 (3) or Communications 102 (3) or 232 (3). D. At least 20 hours from the general education couses listed in the catalog, with at least one course in each of the five areas, Humanities, Life Science, Physical Science, Social Science, and Other. E. An overall G. P. A. of 2.00 or C. II Specific Requirements: A. Welding courses required (50 credit hours): Welding 101 (5), 102 (5), 103 (5), 104 (5), 105 (5), 106 (5), 251 (5), 252 (5), 253 (5), 255 (5). B. Support courses required: Related Technical Education 101 (4); Engineering Graphics 115 (3), 117 (3); Machine Tool 127 (3); Chemistry 101 (5); Engineering Technology 236 (5). WELDING COURSES Program: Welding—Institutional Certificate, Welder Operator General I. General Requirements: A. An overall G. P. A. of 2.00 or C. B. 47 total hours required as a minimum. C. English 101 (3). II. Specific Requirements: A. Minimum of 30 hours in Welding courses. B. Welding courses required: Welding 101 (5), 104 (5), 105 (5), 106 (5). C. Support courses required: Related Technical Education Engineering Graphics 115 (3); Machine Shop 127 (3). D. Electives — 4-7 credits selected with adviser. 102 (5), 103 (5), 101 (4); Program: Welding—Institutional Diploma, Welding Technology I. General Requirements: A. Completion of Welder Operator General Program. B. An overall G. P. A. of 2.00 or C. C. 93 total hours required as a minimum. D. English 102 (3) or Communication 102 (3) or 105 (3) or 232 (3). II. Specific Requirements: A. Minimum of 20 hours in Welding courses. B. Welding courses required: Welding 251 (5), 252 (5), 253 (5), 255 (5). C. Support courses required: Engineering Graphics 117 (3); Auto Service 140 (3), and/or 250 (3): Engineering Technology 236 (5). D. Electives — 9 to 14 credits selected with adviser. 101. Oxyacetylene Proceses (5) Skill in welding, cutting, hard-facing, surface- bonding, testing, and inspection of sheet and plate steel welding as applied to the American welding standards. Five 2-hour labs a week. A 102. Principles of Gas Welding (5) Oxyacetylene 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 103. Electric Welding Processes (5) Structural joint designs, hard surfacing, testing, and inspection of arc welding. Five 2-hour labs a week. AWS 104. Principles of Arc Welding (5) 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. AWS 105. Metal Inert Weld Processes (51 Metal Inert Gas Welding Processes. Hard wire and flux cored wire welding of ferrous and non-ferrour alloys using appropriate wire alloys and gasses. Five two-hours labs per week. AWS 106. Principles of Metal Inert Welding (5) Advantages and disadvantages of M.I.G. Welding. Weldability of ferrous and non-ferrous metals and special techniques required. Basic principles of constant voltage power supplies and wire feeders. Five lectures per week. 165. Welding Processes (2) 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 3-hour labs a week. AWS 251. Tungsten Inert Gas Weld Processes (5) Tungsten inert gas welding of ferrous and non-ferrous metals. Practice with basic joints in all four welding positions. Five two hour labs per week. AWS 252. Principles of Tungsten Inert Welding (5) Ferrous and non-ferrous alloys and their weldability. Basic construction and maintenance of tungsten inert welding machines. Five lectures. AWS 253. Advanced Arc Welding Processes (5) 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. Prerequisites: Welding 103-104. Five 3-hour labs a week. AWS 255. Testing and Inspection (5) Industrial tests and inspection required to meet industrial standards. Prerequisite: Manufacturing Engineering Technology 236. Two lectures and three 3-hour labs a week. W S 292. Short Courses, Workshops, Institutes and Special Programs (1-6) In order to provide flexibility and to meet many different needs, a number of specific offerings are possible using this catalog number. When the number is used it will be accompanied by a brief and specific descriptive title. The specific title with the credit authorized for the particular offering will appear on the student transcript. A W S Su 360. Welding Manufacturing Processes (3) Welding process selection, production planning tooling and quality control. One lecture anc two labs. A S I MANAGEMENT-LOGISTICS PROGRAM Dix W. Cloward, Director Robert G. Stein, Professor Bachelor of Science Degree in Management-Logistics Description: The Management-Logistics curriculum is administered by the School of Technology and provides a unique and practical approach to educating the adult student in the rapidly growing field of logistics. The program is unique in that the student may complete the general education requirements prior to, during, or after completing the courses in the logistics major. Education: The major is divided into core courses, which are required by all students intending to complete a baccalaureate degree, and five specialty areas of which the student may select one. These areas include: (1) Data Automation, (2) Distribution Logistics, (3) Logistics Management, (4) Procurement, (5) Production Management. Employment Outlook: Because this is a relatively new academic program, and the fact that the demand for logisticians is rapidly increasing, job opportunities are exceptionally good, both in private and public sectors. Related Careers: Systems Management, Inventory Management, Transportation, Procurement and Production Management. 276 277 |
