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Course Criteria
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4.00 Credits
Study of concepts involved in forecasting demand, inventory control, MRP, JIT production, lean manufacturing, aggregate scheduling, and project management. The application of mathematical programming techniques, bottleneck analysis, and lean techniques such as value stream mapping, error proofing, cellular manufacturing, etc. are used in design and analysis of production systems. Use of the computer programs in the design and analysis of such systems. Students are asked to select problems of interest and present final project reports. (OC) 4.000 Credit hours 4.000 Lecture hours Levels: Undergraduate Schedule Types: Lecture Indust & Manufac Systems Engin Department Course Attributes: Upper Division
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3.00 Credits
This course introduces the students to machining processes, molding and forming of plastics and the fundamentals of metrology and its application to assess produce quality. Metal cutting theory is emphasized including the mechanics of metal cutting, cutting tools, measure of tool life, selection of cutting conditions, and chip control; theory and applications of non-traditional manufacturing processes. Basic principles of plastics molding and forming processes of plastics, ceramics, and composites. Fundamentals of metrology include linear and angular measurements, standards, gauges, machine tool accuracy, and automation of inspection processes. Laboratory exercises, experiments and projects are required. Two lecture hours and three laboratory hours. 3.000 Credit hours 2.000 Lecture hours 3.000 Lab hours Levels: Undergraduate Schedule Types: Laboratory, Lecture Indust & Manufac Systems Engin Department Course Attributes: Upper Division
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4.00 Credits
This course introduces the students to machining processes, metal forming processes and molding and forming of plastics. Metal cutting theory is emphasized including the mechanics of metal cutting, cutting tools, measurement of tool life, selection of cutting conditions, and chip control; theory and applications of non-traditional manufacturing processes. Metal forming theory is emphasized including formability of metals; analysis of bulk and sheet metal forming processes as applied to practical cases such as automobile manufacturing. Basic principles of plastic molding and forming processes of plastics, ceramics and composites. (W) 4.000 Credit hours 3.000 Lecture hours 3.000 Lab hours Levels: Undergraduate Schedule Types: Laboratory, Lecture Indust & Manufac Systems Engin Department Course Attributes: Upper Division
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3.00 Credits
This course introduces the principle aspects of computers and their applications in systems control, principal of automation, with emphasis on manufacturing industries. Discussion on the hardware and software associated with this task and other topics such as integrated systems modeling, sensor technologies, digital and analog signal processing and control, and information communication are also included. Laboratory exercises and projects are required. 3.000 Credit hours 2.000 Lecture hours 3.000 Lab hours Levels: Undergraduate Schedule Types: Laboratory, Lecture Indust & Manufac Systems Engin Department Course Attributes: Upper Division
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4.00 Credits
This course introduces the basics of calibration, error analysis, and dynamic response characteristics of instrumentation. Fundamentals of metrology include linear and angular measurements, standards, gauges, machine tool accuracy, and automation of inspection processes. The course also introduces the principle aspects of computers and their applications in system control, as well as principles of automation with emphasis on manufacturing industries. Discussion of the hardware and software associated with this task and other topics such as integrated systems modeling, sensor technologies, digital and analog signal processing and control, and information communication are also included. Laboratory exercises and projects are required. (F) 4.000 Credit hours 3.000 Lecture hours 3.000 Lab hours Levels: Undergraduate Schedule Types: Laboratory, Lecture Indust & Manufac Systems Engin Department Course Attributes: Upper Division
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3.00 Credits
This course provides basic knowledge of elements in Computer-Integrated Manufacturing Systems, with particular emphasis on Computer-Aided Design (CAD), Computer-Aided Manufacturing (CAM), Computer-Aided Process Planning (CAPP), materials handling, and information flow in manufacturing systems. Hands-on experiments and course projects are required. Two lecture hours and three laboratory hours. 3.000 Credit hours 2.000 Lecture hours 3.000 Lab hours Levels: Undergraduate Schedule Types: Laboratory, Lecture Indust & Manufac Systems Engin Department Course Attributes: Upper Division
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4.00 Credits
This course focuses on the fundamentals of component and system designs through the use of Computer-Aided Design (CAD) tools. Issues related to the manufacture of molds, jigs and fixtures are also introduced and Computer-Aided Manufacturing (CAM) tools are used as means for the production of these machine components. The principles of design for manufacture and assembly as applied to tool and machine design are also discussed. Computer-Aided Process Planning (CAPP) tools, flexible manufacturing systems, and information flow in manufacturing systems are also presented. Hands-on experiments and course projects are required. (W) 4.000 Credit hours 3.000 Lecture hours 3.000 Lab hours Levels: Undergraduate Schedule Types: Laboratory, Lecture Indust & Manufac Systems Engin Department Course Attributes: Upper Division
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3.00 Credits
Study of the fundamentals of machine tool design, cutting tools, metal forming dies, and jig fixtures for practical applications in machining and assembly. Principles of design for manufacture and assembly as applied to tool and machine design. Laboratory exercises and projects are required using computer-aided design software. Two lecture hours and three laboratory hours. 3.000 Credit hours 2.000 Lecture hours 3.000 Lab hours Levels: Undergraduate Schedule Types: Laboratory, Lecture Indust & Manufac Systems Engin Department Course Attributes: Upper Division
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3.00 Credits
This course will cover topics in manufacturing with emphasis on the parallel product design and selection of specifications for processes. Topics included are the principles of concurrent engineering, geometric dimensioning and tolerancing (GD&T), process engineering, process planning, cost estimating, and design for manufacturing. Projects using computer tools are required on a team-oriented basis. 3.000 Credit hours 3.000 Other hours Levels: Undergraduate Schedule Types: Laboratory, Lecture Indust & Manufac Systems Engin Department Course Attributes: Upper Division
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3.00 Credits
This course focus is on fundamentals of metal forming processes; mechanics of metal forming; formability of materials; tool and die design; design for manufacture; and economic aspect of the process. Emphasis is placed onanalysis of bulk and sheet metal forming processes as applied to practical cases such as automobile manufacturing. Laboratory and course project are required. 3.000 Credit hours 2.000 Lecture hours 3.000 Lab hours Levels: Undergraduate Schedule Types: Laboratory, Lecture Indust & Manufac Systems Engin Department Course Attributes: Upper Division
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