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Show Technology Manufacturing Technology- face grinding cylindrical grinding, internal grinding, tool and cutter grinding. Prerequisite: Machine Tool 103. Five 3-hour labs a week. A W S 127. Machine Shop (3) Basic fundamentals in the operation of lathes, drilling machines, milling machines, including bench work and layout. One lecture and two 3-hour labs a week. A W S 171, 172, 173, 174, 175, 176. Machine Tool (3.3-3.3.3.3) Fundamentals of the operation such as tool grinding, setting up apparatus, checking work, center drilling, radii and fillet forming, knurling, external threading, drilling, boring, reaming and taper turning. Continued course which will include drilling machines, milling machines, metal sawing and grinders. Two 3-hour labs a week. A W S (Evening) 200. Tool Principles (5) Fundamental principles of tool making; types of tooling, dies, molds: tool grinding. Prerequisite: Machine Tool 104. Five lectures. A 201. Tool Building (5) Tool making and precision machining processes Prerequisite: Machine Tool 105. Five labs a week. 202. Tooling Principles (5) Types of drill jigs, milling, grinding and turning fixtures; standard parts, fitting of drill bushings. Prerequisite: Machine Tool 200. Five lectures. W 203. Tool Building (5) Jigs and fixtures fabrication. Prerequisite: Machine Tool 201. Five 3-hour labs a week. S 204. Tooling Principles (5) Production principle in setting up machines, operational sequence, attachments, tooling and gauging methods. Prerequisite: Machine Tool 202. Five lectures. S 205. Tool Building 5 Production problems involving set-ups, operational sequence, attachments, special tools, jigs and fixtures. Prerequisite: Machine Tool 203. Five 3-hour labs a week. S MACHINE TOOL (Example Only) Freshman Year Courses Credit Machine Tool, 100, 102, 104 15 Machine Tool 101, 103, 105 15 Related Tech. Education 10 14 Engineering Graphics 115, 117 4 Welding 165 2 ?Option Requirements 10 _ 60 Sophomore Year Courses Credits Machine Tool 200, 202 204 15 Machine Tool 201, 203, 205 15 Physical Education 3 Health Education 2 Engineering Graphics 145 3 ^Option Requirements 10 48 *Through consultation with their advisers, students may select option courses based on their individual interests and aptitudes. Options available are numerical control machining and programming, tool and die fabrication, machine shop supervision, and general machine shop specialties, such as grinding, tool and cutter grinding, and high volume machining. MANUFACTURING TECHNOLOGY PROGRAM This curriculum is designed to prepare students for employment as technicians. The skills learned can be utilized to perform such functions as engineering drafting, detail designing, time study, tool designing, experimental machining, inspection and quality assurance, engineering laboratory assisting, and numerical control programming. Students completing this two-year program will be given an associate of applied science degree. Certificates of proficiency will be issued for attainment of agreed upon skill levels. MANUFACTURING TECHNOLOGY (Example Only) Freshman Courses Credits M.E.T. 121, 122, 123 15 Related Technical Education 114, 115, 117.. 15 Engineering Graphics 134, 135 7 M.E.T. 132 3 English 101. 102, 103 9 Physical Education 1 Health Education 100 2 62 Sophomore Courses Credits Chemistry 111, 112 10 Physics 111, 112, 113 12 M.E.T. 236, 240 7 M.E.T. 244, 246 6 Humanities 3 Social Sciences 5 Life Science 5 Physical Education 2 50 216 Technology Manufacturing Technology PRE-VOCATIONAL SHEET METAL The pre-vocational sheet metal curriculum is designed to offer students some skills needed to enter the field of commercial and aircraft sheet metal repair or preparation for entry into the Manufacturing Technology Progam. COURSES OF INSTRUCTION 04 0 Sheet Metal Processes (10 hrs./wk.) This course describes the basic theory and processes in sheet-metal work. 041. Sheet Metal Processes <15 hrs./wk.) This course covers the theories and operations most common to hand processes, machine processes, measurements and layout. 042. Sheet Metal Drafting: (10 hrs./wk.) This course offers instruction in the principles of drafting with specific emphasis on how they apply to aircraft and commercial sheet metal layout. 043. Aircraft Sheet Metal Principles (10 hrs./wk.) This course discusses the principles of aircraft structure, rivets and riveting, tool, metals, forming processes, fasteners, corrosion identification, prevention and structural repair. 044. Aircraft Sheet Metal Processes (15 hrs./wk.) This course applies the skills learned to do actual construction, such as assembly and repair of typical aircraft structures. WELDING The Welding curriculum is designed for the student who wishes to major in welding. The various aspects of electric, oxyacetylene and inert processes are included. General service courses are offered for those in related areas who wish to become familiar with the principles of welding as applied to their respective fields: NOTE: Sophomore year may not be offered 1975-76. Certificates of proficiency will be issued on attainment of previously agreed upon skill levels. COURSES OF INSTRUCTION 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 hard surfacing, testing and inspection of arc welding. Five 2-hour labs a week. W 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. W 105. Inert Welding Processes (5) Inert gas welding of nonferrous metals such us stainless steel and aluminum alloys emphasizing Vesting and inspection requirements of the American Welding Standards. Five 2-hour labs a week. S 106. Principles of Inert Welding (5) Non-ferrous alloys and their weldability; construction and maintenance of the inert welding machine. Five lectures. S 115. Welding Blueprint Reading (2) 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 3-hour lab a week. S 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 171, 172, 173, 174, 175, 176. Welding (Electric Arc) (3-3-3-3-3-3) For students with little or no training in arc welding as well as those who wish to upgrade themselves in their trades. Welding beads, butt joints, lap joints, fillet weld, pipe welding overhead, vertical, and flat position welding: preparing and welding of repair jobs: cast aluminum welding; classroom instruction. One lecture, two 3-hour labs a week. Evening 181, 182, 183, 184, 185, 186. Welding (Acetylene) (3-3-3-3-3-3) For students with little or no training in acetylene welding as well as those who wish to upgrade themselves in the trades. Acetylene welding and continuing into advanced welding, and repair jobs; welding beads, butt joints, lap joints, filled welds, pipe welding, as well as overhead, vertical and flat position welding. Bronze welding of cast white metal, etc.: classroom instruction. One lecture, two 3-hour labs a week. Evening 191, 192, 193. Tungsten Inert Gas Welding (3-3-3) Manipulation and theory of gas arc welding process for those with previous arc or acetylene welding experience. Welding of the most" commonly used industrial metals stressed. One lecture, two 3-hours labs a week. Evening 251. Gas Fusion Processes (5) 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 217 |
