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Course Criteria
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3.00 Credits
Expanding on CAD 115 and CAD 125, this course emphasizes the creation of solid models as used most commonly in industry. Students will learn the fundamentals of CAD sketching, creation of 3D solid models, importing of models into multi-view prints, including use of current dimensioning, GD&T and welding symbol standards. Included is the use finite element analysis in determining the integrity and durability of parts.
Prerequisite:
CAD 125 or CAD 117 and CAD 115 or CAD 130
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3.00 Credits
Expanding on CAD 210, this course covers the usage of a CAD system to create sketching, sketching plans, advanced sweeping and lofting, basic and advanced surfaces, FEA simulation, sheet metal, forming and weldments.
Prerequisite:
CAD 125 or CAD 117
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3.00 Credits
Introduces the student to the fluid power, piping and HVAC industries as they relate to CAD. Fundamentals are taught in each industrial area so that the student will be familiar with the nomenclatures specific to each industry and the types of drawings which may be encountered in each.
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3.00 Credits
Covers the use of CAD in the construction industry. Floor plans, elevations, sections and details are explained and drawn on CAD. Surveying drawings are explained and drawn, supplying the structure with utilities and roads. A small one-story house is used as a laboratory exercise.
Prerequisite:
IST 131 and CAD 210 and CAD 230
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2.00 Credits
This course culminates in the development of student skills in CAD drafting and design by creating more complex parts, assemblies and dimensioned drawings. Students will learn how to create and modify parts and assemblies, and develop prints for production using CAD (SolidWorks). Special attention is given to learning the materials used in manufacturing and computer assisted analysis of part structural integrity. Emphasis is placed upon each student being a responsible member of the design team.
Prerequisite:
CAD 210
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1.00 Credits
Provides the student with the opportunity to put to practical use knowledge and skills learned in the classroom. Students are responsible for obtaining their own position (usually paid), with the approval of the Field Experience instructor. The experience is conducted under the supervision of a faculty member who assists the student in developing a work experience plan and who visits the student at the work site. Periodic reports are required. The faculty member and the work site supervisor evaluate the student's work performance at the end of the semester. During the final exam week, an evaluation meeting is scheduled. Each credit hour assigned for the course entails the completion of 180 total clock hours of work experience. Course may be repeated, but total credit hours applied toward degree requirements may not exceed three.
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3.00 Credits
Studies manufacturing materials and processes such as casting, hot and cold working, welding and plastic molding. This course consists of demonstrations as well as industrial field trips to various manufacturing companies.
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2.00 Credits
Introduces Computer Numerical Control (CNC) mill operation set-up, and programming techniques. Students will program, set-up and operate Haas CNC mills.
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2.00 Credits
Introduces Computer Numerical Control (CNC) lathe operation, set-up and programming techniques. Students will program, set-up, and operate Haas CNC lathes.
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2.00 Credits
Covers advanced Computer Numerical Control (CNC) operation, set-up and programming techniques. Program input, editing, and optimization will be emphasized. Students will program, set-up and operate Haas CNC equipment
Prerequisite:
CAM 122 or CAM 124 and MTH 152 or MTH 143
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