AUTB 130 Introduction to Welding for Collision Repair*
This course provides orientation to mild steel, automotive sheet metals, basic oxyacetylene, MIG welding, plasma air arc cutting, equipment, tools, and safety.
AUTB 130Introduction to Welding for Collision Repair*
Please note: This is not a course syllabus. A course syllabus is unique to a particular section of a course by instructor. This curriculum guide provides general information about a course.
I. General Information
II. Course Specification
Course Type
Program Requirement|{D7A8FC71-978F-4003-9933-512C476323B2}
Credit Hours Narrative
1 Credit
Semester Contact Hours Lecture
15
Semester Contact Hours Lab
0
Corequisite Narrative
AUTB 130L
III. Catalog Course Description
This course provides orientation to mild steel, automotive sheet metals, basic oxyacetylene, MIG welding, plasma air arc cutting, equipment, tools, and safety.
IV. Student Learning Outcomes
Upon completion of this course, a student will be able to:
- Differentiate between weldable and non-weldable substrates used in vehicle construction
- Understand how to weld and cut high-strength steel and other steels (plasma, oxy fuel, MIG) and demonstrate an awareness of the heat affect zone
- Determine the correct GMAW (MIG) welder type, electrode/wire type, diameter, and gas to be used in a specific welding situation
- Identify adjustments to the GMAW (MIG) welder to "tune" for proper electrode stickout, voltage, polarity, flow rate, and wire-feed speed required for the substrate being welded
- Identify storage, handling, and installation of high-pressure gas cylinders
- Identify and implement proper use of PPE while performing welding operations
- Determine work clamp (ground) location
- Identify the proper angle of the gun to the joint and direction of gun travel for the type of weld being made in the flat, horizontal, vertical, and overhead positions
- Learn measures to protect adjacent panels, glass, vehicle interior, etc. from welding and cutting operations
V. Topical Outline (Course Content)
VI. Delivery Methodologies