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Course Criteria
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3.50 Credits
Class hours: 3.0 Lecture/2.0 Laboratory This course will prepare students to operate the MasterCAM Programming Systems in conjunction with various multi axis computer numerical control simulators. Students will learn to create and import CAD geometry, create proper job plans, and input the resultant data into virtual CNC machinery.
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3.00 Credits
Class hours: 2.0 Lecture/3.0 Laboratory This course instructs students in the safe and accurate setup and production operation of CNC milling machines of up to 4 axes. Students will learn how to load programs, align fixtures, select offsets, select cutter radius compensation, and run first article parts.
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2.50 Credits
Class hours: 2.0 Lecture/2.0 Laboratory This course is designed to familiarize the student with blueprints and the conversion of blueprint data to workable fabrication data unique to the CNC machine shop. It will cover tool-offset conversion, location, and identification of missing and pertinent coordinates, ANSI Y-14.5, visualization, and identification of attributes important to CNC programming.
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2.00 Credits
Class hours: 2.0 Lecture This course is designed to broaden the knowledge of the student machinist with a survey of blueprint reading, metallurgy, metrology, tooling, and use of the Machinery's Handbook.
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2.00 Credits
Class hours: 2.0 Lecture This course is designed to give the student a complete understanding of dimensional metrology. The student will also develop skills in preparing inspection reports using all of the appropriate instruments available in a machine shop for validation of part geometry.
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3.00 Credits
Class hours: 2.0 Lecture/3.0 Laboratory This course instructs students in the safe and accurate set up and production operation of CNC lathes. Students will learn how to create programs using MasterCam, load programs, select offsets, select cutter radius compensation, and will run first article parts. This course may be taken a maximum of 2 times.
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2.00 Credits
Class hours: 2.0 Lecture Recommendation: MTT 100 or equivalent with grades of Pass or "C" or higher or equivalent. This course is designed to augment the student's knowledge of conventional and automated process techniques. Coursework includes developing advanced skills in lathe and mill setup, materials science, and learning process planning.
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2.00 Credits
Class hours: 2.0 Lecture This course teaches planning, design, and fabrication methods for fixturing in the machine shop. It includes decision-making, machine planning, cutter selection, tolerancing, rest areas, clamping, blueprint interpretation, and design.
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2.00 Credits
Class hours: 1.0 Lecture/3.0 Laboratory This course will introduce students to model making and prototype design by creating 3D solid parts using Rhinoceros software. Students will also learn how to export 3D models to Roland's Computer Aided Machining software and create appropriate tool paths using Modela software.
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2.00 Credits
Class hours: 1.0 Lecture/3.0 Laboratory This course will prepare students in the fabrication of prototypes and models. Students will learn how to import a 3D model created by software, how to scan and digitize models using Dr. Picza software, and how to create models using Modela 3D Text. Students will generate tool paths using Roland's Modela software, transfer tool paths to CNC machines, and fabricate prototypes and models.
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