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Course Criteria
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3.00 Credits
Prerequisite: CHEM 1402 or consent of the instructor. Introduction to plastics part design, materials, production methods, tooling, and equipment. Process cost analysis and optimization. Three hours lecture. Three credit hours.
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3.00 Credits
Prerequisites: grades of C or greater in ETME 2303, 2333, and 2317. A study of the programming standards used in industry to control NC and CNC equipment. G and M codes, as well as specific control commands used in manual program. Computer aided design and manufacturing software to generate part geometry and tool path information. Preparation of final program used by the CNC controllers to machine the designed parts. Two hours lecture, three hours lab. Three credit hours.
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3.00 Credits
Prerequisites: grades of C or greater in ETME2117, 2317. Analytical models and techniques as applied to manufacturing processing, cost estimating, tooling, and materials selection. Problems involving manufacturing, planning, and control. Two hours lecture, three hours lab. Three credit hours.
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3.00 Credits
Prerequisites: grades of C or greater in ETME 2117, 2317; MATH 1302. Statistical foundation for modern quality control. Process control techniques and applications. Product specifications and process capability. Planning and application of acceptance sampling including such plans as the Dodge-Roming, military standards 105 and 414. Computer application problems. Three hours lecture. Three credit hours.
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3.00 Credits
Prerequisite: ETME 3312. Cost estimation methods including labor, material, and overhead. Product, project, and system cost estimation. Estimate sensitivity and contract consideration. Cost-performance analysis and improvement techniques. Bench marking as means of gauging cost and quality performance. Three hours lecture. Three credit hours.
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3.00 Credits
Prerequisite or corequisite: a grade of C or greater in ETME 4385. Robot set-up and programming using control pendant, programmable controllers, ARMBASIC and AML2 languages. Robot capabilities including positioning accuracy, repeatability, and compliance. Robot manufacturing tasks including sorting, machine loading, and assembly. Vision system and applications. One three-hour lab. One credit hour.
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3.00 Credits
Prerequisite: ETME 3301. Corequisite: ETME 4317. Product design/manufacturing cycle, The design process from market research through production and service, Concurrent engineering, design evaluation, and ethics in design and manufacturing, Project selection and planning for the second phase of the senior project to be completed in ETME 4387, One hour lecture, One hour lab. One credit hour.
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3.00 Credits
Prerequisite: consent of instructor. Designed to meet special needs of students or industry to cover application of technology to specific industrial problems. Meets equivalent of one hour. One credit hour.
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3.00 Credits
Prerequisite: senior standing. Traditional operations research approach to production control and some of its limitations. Modern role of computer in material requirements planning (MRP). Master scheduling, capacity planning, dispatching, and shop floor control. Forecasting, order quantity planning and inventory management, Just-In-Time production. Three hours lecture. Threecredit hours.
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3.00 Credits
Prerequisite: ETME 3301. Basic procedures of engineering machine design from concept to specifications. Material selection, tolerances, variable loads and stress concentrations, combined stresses, shaft design, couplings, bearings, gears, power transmitting elements, brakes, clutches, and welded joints. Emphasis on a logical procedure for the design of a complete machine, its components, their functions and layout. Two hours lecture, three hours lab. Three credit hours.
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