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Course Criteria
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3.00 Credits
Prerequisite: Prerequisites: (R) (W) and MET 1013 3 credit hours Students will become familiar with tools and techniques of milling machine operations as well as the theory of milling operations in the manufacturing process. Students will learn and understand industry specific safety standards and guidelines of milling operations in a manufacturing process, tool and shop safety, and print reading specific to milling operations. In applied laboratory assignments, students will demonstrate an understanding of print reading, mathematic calculations relating to setting up a milling operation, milling operations in a manufacturing process, and industry specific safety standards and guidelines.
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3.00 Credits
Prerequisite: Corequisite: MET 1112 4 CREDITS Through the investigation of the theories, tools and techniques involved with milling machine operations, the student will recognize, discuss and apply the principles of precision milling machine work. Laboratory work is an integral part of the course. Topics covered are setup, squaring, boring, drilling, dividing head and rotary table work.
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3.00 Credits
Prerequisite: (R) (W) and MET 1013 3 CREDIT HOURS Students will become familiar with the theory and operations of engine lathes. Students will learn and understand industry specific safety standards and guidelines associated with the operation of engine lathes in the manufacturing process, equipment and shop safety, and print reading specific to engine lathe operations. Laboratory assignments are an integral component of this course.
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3.00 Credits
Prerequisite: Corequisite: MET 1112 4 CREDITS While analyzing the theory and operation of the engine lathe, the student will describe and apply the principles of turning, as well as the tools and equipment involved. Laboratory activity is an integral part of this course. Topics covered will include setup, nomenclature, turning, facing, boring, screwthreads, tapers, and tool geometry.
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3.00 Credits
Prerequisite: (R) (W) and MET 1013 3 CREDIT HOURS Students will identify, evaluate and apply the principles of surface grinding operations including wheel structure and uses and accessories. Students will learn industry specific safety standards and guidelines associated with precision surface grinding process in manufacturing, equipment and shop safety, and mathematics required in the production process and print reading specific to precision surface grinding. Laboratory assignments are an integral component of this course.
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3.00 Credits
Prerequisite: Corequisite: MET 1112 4 CREDITS Through the systematic examination of precision surface grinding techniques, the student will identify, evaluate, and apply the principles of surface grinder operations. Laboratory work is an integral part of this course. Topics covered are wheel structure and uses, setup, surface finish, accessories and contours.
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3.00 Credits
Prerequisite: None 3 CREDITS The student will describe the sources, preparation and properties of various ferrous and non-ferrous metals. He or she will solve problems relating to heat treatment and mechanical deformation of metals and apply the solution in laboratory experiments.
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3.00 Credits
Prerequisite: MET 1033 3 CREDITS Having developed an understanding of theories and procedures of fixturing and tooling for production applications, the student will apply this knowledge by completing selected projects within established tolerances. The student will use standard, as well as self-designed, fixturing and tooling for production application of the lathe, milling machine and surface grinder.
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3.00 Credits
Prerequisite: None 3 CREDITS The student will review and apply electrical and electro-chemical machining methods. Laboratory activities, simulations, and problem-solving activities are integral parts of the course.
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3.00 Credits
Prerequisite: MET 1424 3 CREDITS The student will relate numerical control theory and computer numerical control techniques and practices to various machine tools, including milling, turning, and drilling machines. Simulations, problem-solving activities and laboratory activities are integral parts of the course.
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