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Course Criteria
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4.00 Credits
CAD is introduced as an integral part of the computer integrated manufacturing process. Basic concepts of CAD software and hardware, interactive graphics, CAD Applications, CAD Economics and the inter- relationship of CAD and CAM are discussed. The course work gives the student the skills needed to create 3D Solid Models using a Parametric 3D Solid Modeling application. Emphasis is placed on laboratory work such as creating Solid Models and Assemblies containing Solid Models with limited view creation and dimensioning. Class 4, Credit 4
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2.00 Credits
This course deals with the principles and application of programmable logic controllers (PLC). Topics include PLC hardware, programming and application of PLCs in a computer integrated manufacturing (CIM) environment. Students will also be exposed to man-machine interface (MMI) and PLC networks. (0609-411) Class 3, Lab 2, Credit 4
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2.00 Credits
An advanced course in Computer Numerical Control. Emphasis is placed on machine language and computer aided parts program generation, tool path verification and program editing. Students create three axis programs for CAD, generate models, then model their instructions to CNC machine tools to actually cut the finished part from raw stock. CAD/CAM integration and Product Lifecycle Management (PLM) concepts are presented. (0617-220 or 460) Class 2, Lab 2, Credit 4
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2.00 Credits
The course teaches the principles of design for industrial tooling. The course discusses the concepts of jig, fi xture, measurement, die and automated equipment design, engineering analysis and manufacture. Workplace locating, supporting and clamping systems are emphasized. (0617-420, 262) Class 2, Lab 2, Credit 4
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2.00 Credits
This course deals with the design and evaluation of manufacturing systems and the use of computers in support of integrated product design, development and manufacturing activities. Group technology, process planning, shop fl oor control, concurrent engineering and fl exible manufacturing systems are the principal topic areas while Computer Integrated Manufacturing (CIM) is the primary theme. Lab activity is focused on integrated product/process development and process improvement. (0617-440, 470, 471, 485) Class 3, Lab 2, Credit 4
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2.00 Credits
This course deals with the technology and application of robots in a computer integrated manufacturing (CIM) environment. It will provide a thorough understanding of robotic hardware and software. The hardware aspects include robot confi gurations, drive mechanisms, power systems (hydraulic, pneumatic and servo actuators), end-effectors, sensors and control systems. The software aspect deals with the various methods of textual and lead through programming. Digital interfacing of robots with other CIM components such as programmable logic controllers, computer-controlled machines, conveyors, etc. will be introduced. Robotic cell design and the socio-economic impact of robotics will also be discussed. A strong laboratory hands-on training component is part of the course. (0617-410, 470) Class 3, Lab 2, Credit 4
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0.00 Credits
One quarter of experience in a job related to the student's major (0606-099) Credit 0
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4.00 Credits
A project oriented capstone course to enable students to design, develop, implement and test a CIM Cell. The students are required to work in teams and identify suitable product and process concepts that fi t into a CIM environment. The students must demonstrate successful operation of the cell to receive a satisfactory grade. (0617-475 must be taken immediately prior to this course) (0617-436, 440, 441, 485) Class 1, Lab 4, Credit 4
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3.00 Credits
This course is designed as a technical elective offered to enable students to pursue subjects of special interest to themselves. Subject matter is limited to the area of CIM. Students will be given the opportunity to present a proposal outlining their goals for the course. Upon approval by the course instructor students will be given wide latitude to investigate their CIM area of interest to a breadth and depth not available in a structured course. Students will be expected to work in areas and on problems of concern to the manufacturing industry. Acceptable projects will include those undertaken in response to specifi c requirements of an industry contact, individual research or research in conjunction with faculty or fellow students, library research, intercollegiate competitions, or investigative or original (innovative) papers suitable for publication. Credit 2-5
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3.00 Credits
A supervised investigation within an advanced manufacturing engineering technology area of student interest. The student must be a registered CAST/ RIT honors program student. Consent of the instructor and the department approval are required. Variable credit 1-4
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