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Course Criteria
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0.50 Credits
This course will be used to help the student understand the importance of proper assembly and fabrication techniques. Common joining and welding practices will be covered including drilling and tapping holes, proper tack welding, lay-out, as well as other shop practices. Prerequisite: None.
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0.75 Credits
The purpose of this course is to allow the student to utilize previously learned welding and fabricating skills to create several small, simple welded fabrications. In this course, most parts will be provided for the student to prepare and assemble. Prerequisite: None.
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0.75 Credits
This course is similar to WELD 1610: Small Fabrications, but as the name indicates, the fabrications may be a bit larger and more complex. This course requires a working knowledge of welding drawings, measuring, marking, drilling, tapping, cutting, and welding, at a minimum. Most parts will be cut and prepared by each individual student. Students will build several small to medium sized weldments based on given prints. Prerequisite: None.
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0.25 Credits
This course will cover the technical understanding of oxy-fuel systems, safety, and set-up. Various fuel gases and their effective uses will be covered as well as equipment required for those different fuel gases. Prerequisite: None.
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0.50 Credits
This course will focus on using the Oxy-Fuel Cutting (OFC) process to cut carbon steel. Students will practice making cuts on an assortment of material thicknesses using manual and mechanical torches. Prerequisite: None.
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0.25 Credits
This course will cover the basic theory, components, and safety related to Plasma Arc Cutting (PAC) systems. The history of plasma, machine components, safety, and settings will be covered in this course. Prerequisite: None.
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0.25 Credits
This course will focus on the development of Plasma Arc Cutting (PAC) skills on carbon steel, aluminum, and stainless steel. Students will practice drop cuts, piercing, and gouging with a PAC system. Prerequisite: None.
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0.25 Credits
The focus of this course is on the theory of the Air Carbon-Arc Cutting (CAC-A) process. Topics will include safety, system components, electrode types, and equipment required. Prerequisite: None.
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0.25 Credits
This course will allow the student to practice gouging, back-gouging, and cutting with an Air Carbon Arc Cutting (CAC-A) system. The primary material will be carbon steel, but other materials may be used if available, or requested. Prerequisite: None.
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0.50 Credits
This course will cover the concepts of using Computer Numeric Control (CNC) to program and cut with a Plasma Arc Cutting (PAC) system. Safety, the history of plasma, machine components, coordinate systems, and G-code programming are all topics that will be covered. Prerequisite: None.
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