I. General Information
1. Course Title:
Gas Metal ARC Welding
2. Course Prefix & Number:
WELD 1117
3. Course Credits and Contact Hours:
Credits: 3
Lecture Hours: 1
Lab Hours: 4
4. Course Description:
Instruction is presented in theory, equipment, technique, and skill development. Students are charged with developing skills in the flat, horizontal, vertical, and overhead positions on mild steel. Processes utilized include short circuit transfer, spray, pulse, and flux core. The main objective is to build the students’ skill set to reach a level of quality for entry level positions.
5. Placement Tests Required:
6. Prerequisite Courses:
WELD 1117 - Gas Metal ARC Welding
There are no prerequisites for this course.
9. Co-requisite Courses:
WELD 1117 - Gas Metal ARC Welding
There are no corequisites for this course.
III. Course Purpose
1. Program-Applicable Courses – This course is required for the following program(s):
Welding, Diploma and AAS
IV. Learning Outcomes
1. College-Wide Outcomes
| College-Wide Outcomes/Competencies |
Students will be able to: |
| Analyze and follow a sequence of operations |
Identify key components and order of events to properly weld. |
| Apply abstract ideas to concrete situations |
Identify key components and order of events to properly weld. |
| Utilize appropriate technology |
Utilize testing equipment. |
2. Course Specific Outcomes - Students will be able to achieve the following measurable goals upon completion of
the course:
|
Expected Outcome |
MnTC
Goal Area |
|
Identify types of wire feed welding equipment and their uses. |
|
|
Develop an understanding of polarity and the appropriate usage of polarity to apply the proper weld. |
|
|
Perform the proper steps in welding with gas metal arc equipment. |
|
|
Calculate proper amperage for a specific electrode when using a multiprocess welder. |
|
V. Topical Outline
Listed below are major areas of content typically covered in this course.
1. Lecture Sessions
- Describe the various methods of metal transfer
- Axial Spray
- Globular Transfer
- Pulsed Arc
- Short Circuit Transfer
- Explain the effect of slope and inductance on gas metal arc welding
- Slope
- Inductance
- Pinch Effect
- Adjusting a fixed slope machine.
- Welding Power Supplies
- Electrical terms
- CV-CP
- CC
- IPM
- Shielding Gas selection
- Travel speed
- Electrode extension
- Gun angle
- Types of feed units
- Bird-nesting
- Flow rate/Gas density
- Flux Cored Arc Welding
- Explain the effect of flux on the weld
- Explain the difference between self shielding and gas shielding
- Describe the different ways electrodes are made.
- List the advantages and limitations of flux core arc welding
- Explain electrode cast and helix
- Describe the components used in flux.
2. Laboratory/Studio Sessions
- Perform the following welds on mild steel.
- Weld flat position stringer beads push pull
- Weld 2F lap joint 16 ga
- Weld 1F tee joint 16 ga
- Weld 1G butt joint 10-12 ga
- Weld 1G multi pass butt joint22.5 degree WB 3/8” plate
- Weld 1G multi pass butt joint22.5 degree WOB 3/8” plate
- Weld GMAW beads horizontal 2”X6” 3/8” Plate
- Weld 2G butt joint 12-16 ga
- Weld 2F lap joint 10-12 ga
- Weld 1G V groove 3/8” bend test
- Weld 2G V groove 3/8” plate
- Weld 3F tee 3/8” plate root down cover up
- Weld 3G V groove 3/8” plate root down cover up
- Weld 3F tee down 12-16 ga
- Weld 3G butt down 12-16 ga
- Weld 4F tee 12-16 ga
- Weld 4G butt joint 10-12 ga
- Weld 4G V groove 3/8” WOB
- Weld 1G v groove butt joint 3/8” plate WB FCAW
- Weld 1G V groove 3/8” WOB FCAW
- Perform guided bend test
- Weld 1G butt joint ¼” plate WB FCAW
- W. Weld 2F tee joint 3’8” plate spray transfer
- Weld2F lap joint ¼: plate spray transfer
- Weld 2F lap joint 3/8” plate FCAW
- Weld 1G butt joint V grooved WOB FCAW
- Perform bend test
- Weld 3F tee 3/8” plate up FCAW 1 pass
- Weld 4F tee 3/8” FCAW 3 Pass
- Weld 3G butt joint V groove 3/8” plate up FCAW 3 pass WB
- Weld 2G butt joint V groove Pulse
I. General Information
1. Course Title:
Gas Metal ARC Welding
2. Course Prefix & Number:
WELD 1117
3. Course Credits and Contact Hours:
Credits: 3
Lecture Hours: 1
Lab Hours: 4
4. Course Description:
Instruction is presented in theory, equipment, technique, and skill development. Students are charged with developing skills in the flat, horizontal, vertical, and overhead positions on mild steel. Processes utilized include short circuit transfer, spray, pulse, and flux core. The main objective is to build the students’ skill set to reach a level of quality for entry level positions.
5. Placement Tests Required:
6. Prerequisite Courses:
WELD 1117 - Gas Metal ARC Welding
There are no prerequisites for this course.
9. Co-requisite Courses:
WELD 1117 - Gas Metal ARC Welding
There are no corequisites for this course.
II. Transfer and Articulation
III. Course Purpose
1. Program-Applicable Courses – This course is required for the following program(s):
Welding, Diploma and AAS
IV. Learning Outcomes
1. College-Wide Outcomes
| College-Wide Outcomes/Competencies |
Students will be able to: |
| Analyze and follow a sequence of operations |
Identify key components and order of events to properly weld. |
| Apply abstract ideas to concrete situations |
Identify key components and order of events to properly weld. |
| Utilize appropriate technology |
Utilize testing equipment. |
2. Course Specific Outcomes - Students will be able to achieve the following measurable goals upon completion of
the course:
|
Expected Outcome |
MnTC
Goal Area |
|
Identify types of wire feed welding equipment and their uses. |
|
|
Develop an understanding of polarity and the appropriate usage of polarity to apply the proper weld. |
|
|
Perform the proper steps in welding with gas metal arc equipment. |
|
|
Calculate proper amperage for a specific electrode when using a multiprocess welder. |
|
V. Topical Outline
Listed below are major areas of content typically covered in this course.
1. Lecture Sessions
- Describe the various methods of metal transfer
- Axial Spray
- Globular Transfer
- Pulsed Arc
- Short Circuit Transfer
- Explain the effect of slope and inductance on gas metal arc welding
- Slope
- Inductance
- Pinch Effect
- Adjusting a fixed slope machine.
- Welding Power Supplies
- Electrical terms
- CV-CP
- CC
- IPM
- Shielding Gas selection
- Travel speed
- Electrode extension
- Gun angle
- Types of feed units
- Bird-nesting
- Flow rate/Gas density
- Flux Cored Arc Welding
- Explain the effect of flux on the weld
- Explain the difference between self shielding and gas shielding
- Describe the different ways electrodes are made.
- List the advantages and limitations of flux core arc welding
- Explain electrode cast and helix
- Describe the components used in flux.
2. Laboratory/Studio Sessions
- Perform the following welds on mild steel.
- Weld flat position stringer beads push pull
- Weld 2F lap joint 16 ga
- Weld 1F tee joint 16 ga
- Weld 1G butt joint 10-12 ga
- Weld 1G multi pass butt joint22.5 degree WB 3/8” plate
- Weld 1G multi pass butt joint22.5 degree WOB 3/8” plate
- Weld GMAW beads horizontal 2”X6” 3/8” Plate
- Weld 2G butt joint 12-16 ga
- Weld 2F lap joint 10-12 ga
- Weld 1G V groove 3/8” bend test
- Weld 2G V groove 3/8” plate
- Weld 3F tee 3/8” plate root down cover up
- Weld 3G V groove 3/8” plate root down cover up
- Weld 3F tee down 12-16 ga
- Weld 3G butt down 12-16 ga
- Weld 4F tee 12-16 ga
- Weld 4G butt joint 10-12 ga
- Weld 4G V groove 3/8” WOB
- Weld 1G v groove butt joint 3/8” plate WB FCAW
- Weld 1G V groove 3/8” WOB FCAW
- Perform guided bend test
- Weld 1G butt joint ¼” plate WB FCAW
- W. Weld 2F tee joint 3’8” plate spray transfer
- Weld2F lap joint ¼: plate spray transfer
- Weld 2F lap joint 3/8” plate FCAW
- Weld 1G butt joint V grooved WOB FCAW
- Perform bend test
- Weld 3F tee 3/8” plate up FCAW 1 pass
- Weld 4F tee 3/8” FCAW 3 Pass
- Weld 3G butt joint V groove 3/8” plate up FCAW 3 pass WB
- Weld 2G butt joint V groove Pulse