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Course Criteria
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3.00 Credits
Introduces the basic concepts of manufacturing operations and plant floor layout in the production environment. Applications of Computer Numerical Control for milling, lathe and turning operations are developed as a foundation for machining operations. Coordinate system concepts are introduced relevant to the machining processes.
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3.00 Credits
A review of basic operations of numbers, fractions and decimals. Covers the practical mathematics that every machinist is expected to use in the shop and in the creation and maintenance of tools, fixtures and industrial devices. Applies math to special calculations such as: taper angles, gearing ratios, gearing systems, and cutting speeds and feeds.
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3.00 Credits
Provides an introduction to reading and interpreting machine shop symbols, machining blueprints and working drawings used in trades and crafts. Focuses on dimension, shape, fabrication and assembly. Applies basic mathematics to the solution of print interpretation.
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3.00 Credits
Introduces the basic concepts of robotics and types factory automation used in manufacturing. This course will provide knowledge in the areas of robot safety, robot types, and robotic applications. The common types of factory automation will be identified.
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3.00 Credits
Introduces basic safety instruction including OSHA requirements and other concerns (MSDS, confined space, lock out/tag out, zero energy state, hazardous materials, storage of flammable materials, portable powered tool safety, hand tool safety, record keeping, training, employer enforcement of safety regulations, right to know, etc.).
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3.00 Credits
Introduces the basic concepts of computer numerical control (CNC) operations as they exist in a manufacturing environment. Skills in setup and operation of a CNC mill and lathe will be acquired using multiple machine tool controllers.
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3.00 Credits
Introduction to precision measurement techniques and applications. Provides instruction in surface plate inspections, gauging techniques and instruments, optical comparators, hardness testing, and coordinate measuring machines (CMM). Presents calibration and measurement system analysis.
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3.00 Credits
Covers current quality control concepts and techniques in industry with emphasis on modern manufacturing requirements. Studies the fundamental tools of Statistical Process Control which are used in industry to reduce costs and increase productivity at a predictable quality level. Emphasizes principles and techniques of SPC to ensure prevention instead of detection of problems. Includes basic statistical and probability theory, sampling techniques, process control charts, the nature of variation, histograms, attributes and variable charts.
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3.00 Credits
Introduces the philosophical background, historical development, fundamental concepts, operating fundamentals, and the organizational rationale for the implementation of lean disciplines in manufacturing. The use and implementation of lean disciplines has generally resulted in the ability of an enterprise to develop a work environment that promotes continuous improvement, eliminates waste, reduces operating cost, improves quality, and achieves measurable improvement in customer satisfaction.
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3.00 Credits
Introduces the different types of work-holding devices, their uses, advantages and disadvantages in CNC milling and lathe machines. The devices will be expanded to include manual and hydraulic work- holding devices. Topics will also include the different types of cutting fluids, coolants and oils used in advanced machining production equipment.
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