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Course Criteria
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4.00 Credits
Provides an introduction to welding technology with an emphasis on basic welding laboratory principles and operating procedures. Topics include: industrial safety and health practices, hand tool and power machine use, measurement, laboratory operating procedures, welding power sources, welding career potentials, and introduction to welding codes and standards. Hours: Class/Week 4 D.Lab/Week 4 Credit 6 Prerequisite: Provisional admission
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4.00 Credits
Introduces fundamental principles, safety practices, equipment, and techniques necessary for metal heating and oxyfuel cutting. Topics include: metal heating and cutting principles, safety procedures, use of cutting torches and apparatus, metal heating techniques, metal cutting techniques, manual and automatic oxyfuel cutting techniques, and oxyfuel pipe cutting. Practice in the laboratory is provided. Hours: Class/Week 2 D.Lab/Week 2 P.Lab/Week 4 Credit 4 Prerequisite: WLD 100
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0.00 Credits
Introduces fundamental theory, safety practices, equipment, and techniques necessary to perform basic oxyacetylene welding operations. Topics include: welding theory; oxyacetylene welding safety; use of gas cylinders and regulators; use of torches, tips and apparatus; welding without filler rods; running beads with filler rods; butt, open butt, and lap joints; and brazing and soldering. Practice in the laboratory is provided . Hours: Class/Week 1 D.Lab/Week 2 P.Lab/O.B.I 0 Credit 1 Prerequisite: WLD 100
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4.00 Credits
Introduces the knowledge and skil s necessary for reading welding and related blueprints and sketches. Topics include: basic lines; sketching; basic and sectional views; dimensions, notes, and specifications; isometrics; and detail and assembly of prints. Hours: Class/Week 1 D.Lab/Week 4 Credit 3 Prerequisite: MAT 100, WLD 100
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3.00 Credits
Introduces the fundamental theory, safety practices, equipment, and techniques required for shielded metal arc welding (SMAW) in the flat position. Qualification tests, flat position, are used in the evaluation of student progress toward making industrial standard welds. Topics include: SMAW safety and health practices, fundamental SMAW theory, basic electrical principles, SMAW machines and set up, electrode identification and selection, materials selection and preparation, and production of beads and joints in the flat position. Hours: Class/Week 3 D.Lab/Week 4 P.Lab/Week 3 Credit 6 Prerequisite: WLD 100
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3.00 Credits
Introduces the major theory, safety practices, and techniques required for shielded metal arc welding (SMAW) in the horizontal position. Qualification tests, horizontal position, are used in the evaluation of student progress toward making industrial standard welds. Topics include: horizontal SMAW safety and health practices, selection and applications of electrodes, selection and applications for horizontal SMAW, horizontal SMAW joints, and horizontal SMAW to specification. Hours: Class/Week 3 D.Lab/Week 4 P.Lab/Week 3 Credit 6 Prerequisite: WLD 104
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3.00 Credits
Introduces the major theory, safety practices, and techniques required for shielded metal arc welding (SMAW) in the vertical position. Qualification tests, vertical position, are used in the evaluation of student progress toward making industrial standard welds. Topics include: vertical SMAW safety and health practices, selection and applications of electrodes for vertical SMAW, vertical SMAW joints, and vertical SMAW to specification. Hours: Class/Week 3 D.Lab/Week 4 P.Lab/Week 3 Credit 6 Prerequisite: WLD 104
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3.00 Credits
Introduces the major theory, safety practices, and techniques required for shielded metal arc welding (SMAW) in the overhead position. Qualification tests, overhead position, are used in the evaluation of student progress toward making industrial standard welds. Topics include: overhead SMAW safety and health practices, selection and applications of electrodes for overhead SMAW, overhead SMAW joints, and overhead SMAW to specification. Hours: Class/Week 3 D.Lab/Week 4 P.Lab/Week 3 Credit 6 Prerequisite: WLD 104
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4.00 Credits
Emphasizes welding symbols and definitions through which the engineer or designer communicates with the welder. Welding symbols are considered an integral part of blueprint reading for the welder. Topics include: welding symbols and abbreviations; basic joints for weldment fabrications; industrial y used welds; surfacing, back or backing, and melt-thru welds; and structural shapes and joint design. Hours: Class/Week 1 D.Lab/Week 4 Credit 3 Prerequisite: WLD 103
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3.00 Credits
Provides knowledge of theory, safety practices, equipment and techniques required for successful gas metal arc welding. Qualification tests, all positions, are used in the evaluation of student progress toward making industrial standard welds. Topics include: GMAW safety and health practices; GMAW theory, machines, and set up; transfer modes; wire selection; shielded gas selection; and GMAW joints in all positions. Hours: Class/Week 3 D.Lab/Week 4 P.Lab/Week 3 Credit 6 Prerequisite: WLD 100
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