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Course Criteria
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1.00 Credits
Study of the use of ANSI Y14.5M-1994, the engineering standard for geometric dimensioning and tolerancing. Includes the proper use of GD&T symbols, reading and interpretation of engineering drawings, techniques for determining part adherence to design requirements and workmanship standards. Three hours of laboratory a week. Prerequisite(s): MCT 110L.
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3.00 Credits
Manufacturing planning; process planning; advanced cutting tools; workholders; power presses-blanking, forming, draw dies, fine blanking; group technology, gage, jig, and fixture design. Prerequisite(s): MCT 110L; MFG 108L, 204.
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4.00 Credits
Investigation and discussion of current topics in manufacturing engineering technology. May be taken more than once. Prerequisite(s): Permission of department chairperson.
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3.00 Credits
Study of robotics including history, robot geometry, cost justification, end-effector (types, use, and design), sensors, and programming. Application of robots in industries. Robot programming and operation projects and end-effector design projects. Prerequisite(s): MCT 220, 313; SET 153L.
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3.00 Credits
CIM systems and interrelationships; group technology, computer-aided process planning, expert systems, local area networks, automated flow lines, data collection, and material handling. Team project to plan, design, and make an oral presentation of a proposal for a complete manufacturing cell. Prerequisite(s): ECT 110; SET 153L.
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3.00 Credits
Topics include: fundamentals of digital logic, pneumatic power, electromechanical sensors and actuators, pneumatic and electrical control circuit analysis and design, industry safety and design standards, concepts of mechatronics, programmable logic controllers, and networking communications. Includes lab experiences. Prerequisite(s): ECT 120; SET 153L.
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3.00 Credits
Introduction to the more common plastics, composites, and nano engineering materials and their properties. Study of processes including extrusion, injection molding, blow molding, compression and transfer molding, and forming. Topics on part and tooling design. Prerequisite(s): CHM 123; MFG 204.
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3.00 Credits
Programming of CNC turning and machining centers and industrial robots; application of CAM software to design and edit CNC and robot programs, edit programs, and display tool and motion paths. Parametric part programming concepts to produce complex surfaces. Machine set-up and operation. Design, programming, and production of products in extensive CNC lab facility. Prerequisite(s): MCT 110L; MFG 108L; MTH 138; SET 153L.
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3.00 Credits
Instruction in the programming of complex, multi-axis CNC machines. Extended parametric programming. Programming language techniques. Prerequisite(s): MFG 434.
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3.00 Credits
Design for the environment, sustainable manufacturing processes and business practices to support these topics are developed.
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