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Course Criteria
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2.00 Credits
Prerequisite: CIMN 1110, CIMN 1420 This course introduces students to Computer Aided Manufacturing (CAM) and the development of multi-axis CNC part programs and files ready for downloading to machining and turning centers. Laboratory experience includes blueprint analysis to determine part holding method, order of operations, tooling, feeds and speeds, creation of part and fixture geometry, definition of tool paths, graphical verification of tool path, and post processing to generate ISO or Conversational CNC code for milling machine, turning machine, machining center, turning center and wire machine applications. (3 contact hours: 1 lecture, 2 lab)
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2.00 Credits
Prerequisite: CIMN 1430 This course is a continuation of CIMN 1430 Introduction to Computer Assisted Part Programming with emphasis on creating and editing material library, post processor techniques, and communication between workstation and CNC machine. Laboratory experience includes the generation of CNC code, starting with imported CAD files, downloading of code to machine tools, setting up machines and tools, and producing parts on both CNC machining center and CNC lathe. (3 contact hours: 1 lecture, 2 lab)
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2.00 Credits
Prerequisite: CIMN 1420 This course, a continuation of CIMN 1420 Computer Numerical Control Part Programming (CNC), introduces students to advanced features of setting-up and programming CNC turning centers using ISO standard (G-codes) mode of programming including fixed cycles and multiple repetitive cycles (automatic repeat cycles) dealing with roughing, finishing and threading. Laboratory experience includes the production of parts conforming to print specification with progressively more comprehensive turning programs. (4 contact hours: 1 lecture, 3 lab)
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2.00 Credits
Prerequisite: CIMN 1420 This is a continuation of CIMN 1420 Computer Numerical Control Part Programming (CNC), with emphasis on advanced features of setting-up and programming CNC machining centers using ISO standard (G-codes) mode programming, including the use of canned cycles involving drilling, drilling with dwell, peck drilling, tapping, boring, milling, machining at equal intervals, and pocket milling. Laboratory experience includes production of parts to print specifications with progressively more comprehensive machining programs. (4 contact hours: 1 lecture, 3 lab)
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3.00 Credits
Prerequisite: CIMN 1110 or permission of instructor, MECT 1150 or ENGL 1121, CADT 1100 This course introduces students to the principles of manufacturing (production) methods as well as costs and cost analysis that lead to more efficient utilization of manufacturing resources. Topics include an introduction to job order costs, budgetary cost control, standard costs, and direct costing; cost improvement methods; and economic analysis of engineering proposals. Laboratory experience includes independent research and problem solving projects involving the evaluation of alternative methods and procedures; cost estimating, cost studies, cost reporting, analysis of cost data, performance of productivity measurement, evaluation of engineering proposals, return-on-investment, interest, break-even analysis, depreciation, and cash flow. (4 contact hours: 2 lecture, 2 lab)
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3.00 Credits
Prerequisite: CIMN 1110, CADT 1100 This course introduces students to the design and manufacture of jigs and fixtures, utilizing AutoCAD design software, with special emphasis on simplicity and economy, and incorporating geometric dimensioning and tolerancing (G, D&T). The course includes an overview of types of specialized workholding and tooling devices, including power, modular, welding, inspection, and computer numerical (CNC) jigs and fixtures; the identification of the source of design data; the analysis of sample parts for locating and supporting characteristics; and the development of a design plan. Laboratory experience includes design of template, vise-held, plate, angle-plate, channel and box, and vise-jaw jigs and fixtures from sample parts.(5 contact hours: 1 lecture, 4 lab)
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3.00 Credits
Prerequisite: CIMN 2240 This course, a continuation of CIMN 2240 Jig and Fixture Design I, introduces students to specialized workholding and tooling devices, including power, modular, welding, inspection, and CNC jigs and fixtures, with emphasis on simplifying and reducing cost, set-up, and work piece processing. Through laboratory experience, students will create a major design project for a specific manufacturing process and develop a professional design portfolio for use in future job placement or advancement. (5 contact hours: 1 lecture, 4 lab)
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3.00 Credits
Prerequisite: ENGL 1121 or MECT 1150, MATH 1001 This course introduces students to the field of fluid power, including theory and applications, energy input devices, energy output devices, energy modulation devices, and auxiliary system components; storage and distribution systems as well as fluids conditioning and contamination, with emphasis on fluids, equipment, and system operation. Laboratory experience includes the assembly of standard components to perform typical industry standard fluid power system applications. Students must provide an approved set of safety goggles and a portable calculator capable of calculating exponents and roots. (4 contact hours: 2 lecture, 2 lab)
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2.00 Credits
This course introduces students to oxy-acetylene welding, braze welding, silver brazing, oxy-acetylene hand cutting, and oxy-propane machine cutting. Laboratory experience includes the oxy-acetylene welding of low carbon steels; bronze braze welding of low carbon steel; silver brazing of low carbon steel, stainless steel, and copper tubing; the testing of welds produced; and manual oxy-acetylene and straight line oxy-propane machine cutting of low carbon steel. Laboratory experience includes an emphasis on individual instruction. Students must provide safety glasses for use in the laboratory. (4 contact hours: 1 lecture, 3 lab)
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0.00 - 2.00 Credits
Prerequisite: CIMN 1520 or MECT 1100 or permission of instructor This course introduces students to production-level three-dimensional solid modeling of discrete components and assemblies using SolidWorks software on the Windows NT platform. Topics include advanced assembly modeling, part modeling, drafting with part and assembly print, and bill of material creation. Laboratory experience includes a major product design project and techniques to develop sweeps, linear patterns, circular patterns, lofts, sheet metal parts, multi-faced shells, revolved features, variable radii, fillets, molds, and initiation of rapid prototyping. (4 contact hours: 1 lecture, 3 lab)
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