CCOG for WLD 290 Fall 2024
- Course Number:
- WLD 290
- Course Title:
- Submerged Arc Welding
- Credit Hours:
- 2
- Lecture Hours:
- 0
- Lecture/Lab Hours:
- 40
- Lab Hours:
- 0
Course Description
Addendum to Course Description
This is an outcome based course utilizing a lecture/lab format. This course includes classroom discussions, videos, and lab demonstrations of technical skills. Course outcomes will include: theoretical concepts, layout, fabrication, welding, oxy-fuel cutting and safety.
Intended Outcomes for the course
Upon successful completion of the course students should be able to:
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Function safely in the PCC Welding Shop.
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Apply math and science concepts to welding related process.
-
Operate oxy-fuel portable and track cutting systems in accordance with industry standards.
-
Interpret blueprints to accurately lay out, prepare, and assemble weld joints.
-
Understand and apply fundamentals of submerged arc welding (SAW) operations.
-
Weld common joint assemblies with the submerged arc welding (SAW) to AWS D1.1 Structural Steel Welding Code.
-
Apply visual and destructive examination principles and practices in accordance with AWS D1.1.
Course Activities and Design
Welding lec/lab courses are Open Entry and Open Exit (OE/OE) and are offered concurrently. Courses are designed to meet the needs of the students with flexible scheduling options. Students may attend full time or part time. This is an OE/OE course which does not align with the normal academic calendar.
Outcome Assessment Strategies
The student will be assessed on his/her ability to demonstrate the development of course outcomes. The methods of assessment may include one or more of the following: oral or written examinations, quizzes, written assignments, visual inspection and welding tests.
Course Content (Themes, Concepts, Issues and Skills)
Function safely in the PCC Welding lab.
- Understand and practice personal safety by using proper protective gear
- Understand and practice power tool safety
- Understand and practice equipment safety for welding and oxy-fuel cutting systems
- Understand and maintain a safe work area
- Recognize and report dangerous electrical and air/gas hose connections
- Understand and practice fire prevention
Apply math and science concepts to welding related process.
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Determine steel costs by weight per square foot calculations
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Explain the characteristics of the SAW process as it relates to common electrodes and flux combinations
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Explain how Heat-Affected Zone (HAZ) Cracking Possible
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Describe mechanical properties of weld metal deposited by SAW
Operate oxy-fuel portable and track cutting systems in accordance with industry standards.
-
Demonstrate correct setup and shutdown procedures for the hand cutting and track cutting systems
- Perform oxy fuel cutting with guided practice
Interpret blueprints to accurately lay out, prepare, and assemble weld joints.
-
Interpret lines, symbols and verbiage on project drawing
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Lay out material per drawing specifications
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Use the oxyfuel cutting process to cut material to specified dimensions
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Grind material to meet specifications
- Assemble weld project per specification
Understand and apply fundamentals of submerged arc welding (SAW) operations.
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Use correct terminology
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Define terms used in the SAW process
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Equipment identification, setup, shut down, and principles of operation for SAW
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Power source identification and adjustment
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Welding lead, connections, inspection, and use
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Electrode and Flux identification, characteristics, and use
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Know essential variables of SAW by demonstrating the effects of the following variables: travel speed, electrode angle, voltage and wire feed speed
Weld common joint assemblies with the submerged arc welding (SAW) to AWS D1.1 Structural Steel Welding Code.
-
Demonstrate correct welding techniques with the SAW
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Starting and stopping
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Overlapping welds
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Follow a welding procedure
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Demonstrate correct welding techniques in the following joints:
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Flat Position
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T- joint
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Groove joint
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Horizontal Position
- T-joint
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Apply visual and destructive examination principles and practices in accordance with AWS D1.1.
- Evaluate welds using appropriate welding inspection tools
- Assess weld discontinuities causes and corrections