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Course Criteria
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3.00 Credits
In this course, the fundamental skills and knowledge of the NCL Numerical Control programming Language are developed. Students will be required to write and run NCL programs on the Department's PC's. Students willalso process programs capable of controlling machine tools. Prerequisite(s): GPH103, GPH104, MET127 & MTH129 (3,0) 3 credits Fall
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3.00 Credits
Students will be introduced to the three main aspects of industrial quality control: dimensional inspection, calibration, and statistical quality control. The theory and practice of metrological devices such as plug gauges, gauge blocks, optical comparator and the tool-maker's microscope will be covered. State-of-the-art digimatic equipment, height gauge, and super micrometer will be taught as well as other inspection techniques. The use of the computer assisted coordinate measuring machine (CMM) will also be emphasized. Prerequisite(s): MET 211, MET 127 (2,2) 3 credits Spring
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2.00 Credits
This course will introduce the technology students to the important subject of engineering design and finite element analysis. The course material builds on the student's previous experience in computer graphics and strength of materials and introduces them to the modern concepts of concurrent engineering and design for manufacturability. The students will learn how to import their graphic drawings from the Computer Aided Design (CAD) to the Computer Aided Engineering (CAE) software and apply the loads and appropriate boundary condition. Linear stress and deformation analysis of mechanical systems is an essential part of this course, which will provide the students with a powerful design tool. Prerequisite(s): MET 206, MET 211 (1,2) 2 credits Fall
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3.00 Credits
In this course the concepts of Computer Integrated Manufacturing (CIM) as applied to the areas of Computer Aided Design (CAD), Design Office Automation, Computer Aided Engineering (CAE), Management Materials Tracking with Bar Code Technology and Network Communication will be studied. Students will gain hands-on experience using the colleges computer system and software. Laboratory projects will cover real world concepts. Prerequisite(s): MET 211 (2,2) 3 credits Fall
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3.00 Credits
This is a theory and laboratory course covering an introduction to advanced composites and design of production tools. Some included topics are: vacuum fixtures, lay up tooling, composite tooling, and press tooling. Drawings will be assigned to be done both on the drafting board and on the College's computer graphics equipment. Prerequisite(s): MET 207 (2,2) 3 credits Spring
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3.00 Credits
The objective of this course is to present a comprehensive, concise and modern treatment of the fundamental principles of feedback and linear control system theory & practice. The theory part of the course considers the conceptual framework and terminology of feedback and control systems, methods of determining the stability of linear systems, transfer functions, block diagrams and signal flow graphs. Laboratory exercises demonstrate the fundamental behavior of pneumatic, electro pneumatic, and hydraulic systems. Special topics include the use of microprocessors in control system technology. Prerequisite(s): MET 230 (2,2) 3 credits Fall, Spring
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3.00 Credits
This course covers the mechanical design of the machine elements including s, gears, couplings, shafts and fasteners by applying the basic principles of statistics and strengths of materials. It also includes the kinematics of gear trains, stress analysis of various machine elements and design for different modes of failure. Prerequisite(s): MET 206 (2,2) 3 credits Fall
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3.00 Credits
This course provides the student with experience in computer graphics NC programming techniques. Students will generate 2-D and 3-D parts on CAM software and analyze the toolpaths required for various types of machining operations. Programs will be processed to produced EIANC code which will then be loaded into a CNC machine to manufacture a part. Students will also create 2-D and 3-D files on CAD software and learn how to export the CAD files to CAM software. Prerequisite(s): MET 127 (3,0) 3 credits Spring
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3.00 Credits
The motions of a particle and its associated forces and accelerations will be analyzed. The analytic techniques will include conservation of energy, impulse, momentum and work methods. D'Alembert's Principle,rotational dynamics, and critical shaft speeds will be studied. Students will develop computer software for selected topics. Prerequisite(s): MET 201, PHY 136, MET 109 and completion of Department mathematics requirements (3,0) 3 credits Fall
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3.00 Credits
This is a theory and laboratory course covering an introduction to electronic packaging application with the layout drawings of analog and digital schematics. Also included in the course is application of thermal, radio frequency, electromagnetic, shock and vibration effects. Students' designs will be drawn on the College's computer graphics equipment. Prerequisite(s): MET 207 (2,2) 3 credits Fall
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