1 / 35

SMAW Pipe Welding Techniques

SMAW Pipe Welding Techniques. Positions. 1G 2G 5G 6G. 1F 2F 2FR 4F 5F. 1G Position. Pipe rotated, Electrode is always at the top Either a split bead or weave technique may be used. 2G Position. Pipe Axis Vertical, Weld is Horizontal, Pipe is considered in a “fixed” position.

benjamin
Download Presentation

SMAW Pipe Welding Techniques

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. SMAWPipe WeldingTechniques

  2. Positions • 1G • 2G • 5G • 6G • 1F • 2F • 2FR • 4F • 5F

  3. 1G Position Pipe rotated, Electrode is always at the top Either a split bead or weave technique may be used

  4. 2G Position Pipe Axis Vertical, Weld is Horizontal, Pipe is considered in a “fixed” position. Always use a split bead technique Always work from the bottom up.

  5. 5G Position Axis of the Pipe is Horizontal, The weld in vertical. Progression may be up or down. A weave bead is best used.

  6. 6G Position Pipe axis is fixed in position at a 45 degree incline. Thhe position includes flat, horizontal, vertical, and overhead welds. A split bead tecvhnique is best used.

  7. 1F Position Pipe is rotated. The pipe axis is at a 45 degree incline. Welding is to occur at the top of the pipe. Split bead or weave technique may be used.

  8. 2F Position Fixed Position Best to use a split bead technique

  9. 2FR Position A split bead technique is best used. Rotated

  10. 4F Position A split bead technique is best used

  11. 5F Position Not Rotated. Progression may be up or down. Split beads or weaves can be used on 5F-up welds, split beads are best used on 5F-down welds.

  12. Fill Pass Cover Pass Root Pass Hot Pass

  13. Always work from the bottom up when using the split bead technique Always be careful not to create a tight area where slag may get trapped under the next weld. It is better to weave slightly than to leave a tight area. Plan your sequence of beads!

  14. Always work toward the smaller side of the fillet. (It will be easier to get to) Always be careful not to create a tight area where slag may get trapped under the next weld. It is better to weave slightly than to leave a tight area. Plan your sequence of beads!

  15. Techniques • Stringer (push, drag, or whip), or Weave

  16. Progression (vertical) • Up • deeper penetration • Higher deposit rate (lb/hr) • Use near 90 degree travel angle or slightly up • Down • faster (point to point) • less penetration for thin metal • less dilution • Use steep drag angle

  17. Travel Speed • Stay on the leading edge of the puddle

  18. Dimensions • Reinforcement Height • ASME flush - 1/16 • AWS flush 1/8 • Reinforcement Width • 1/16” past bevel edge • Smooth transition at weld toe (45o max)

  19. Keyholeing

  20. Backing • Metallic • backing ring • consumable inserts

  21. Welding grooves with Inserts • Keep the root opening wide • Make the root pass in one bead • Avoid tight areas at the weld toes

  22. Welding a PJP groove • Works great for limiting restrictions inside pipes • make up for loss of wall on reinforcement

  23. Root Openings • Small will allow more amperage which will in turn make welding smoother and easier, as well as easier arc starts. • Larger root openings will allow more penetration.

  24. Root Faces • Larger root faces will allow more amperage which will in turn make welding smoother and easier, as well as easier arc starts. • Smaller root faces will allow more penetration.

  25. Tacking, Tack Grinding • 3/4” long • feather both ends • clean and flatten tops • start on top, burn through before end • run completely onto tack before stopping • interpass grind lumps off before next pass • stagger all starts and stops betoeen passes • stagger all starts and stops between beads in a single pass • Don’t overgrind tacks.

  26. Butt Joint Preperation (With Backing) Root faces - 0 450 included angle Remove all mill scales and rust Tacking - not in groove Tack away from coupon area. Flush on backing

  27. 1/16-1/8 Butt Joint Preperation (Joints without backing) 600 included angle Root faces Tacking Feather Tacks

  28. Open Root Technique • Use root opening to allow increase in amperage for smoother welding • Whip backwards for penetration • Whip forwards to reduce penetration • Do Not Weave a root pass. • Maintain a short arc gap • Stay slightly in front of the puddle at all times. Use the keyholing technique.

  29. Restarts • Stagger all starts and stops or use runon, runoff tabs • Feather all restarts & start on top, or start in front and remelt • Don’t restart in a coupon area. • Also stagger all beads on a single pass. • Use a longer arc length when starting a weld. Compare interpass grinding techniques vs. no interpass grinding.

  30. Craters • Fill craters by welding into the previous weld start • Use a short arc length to control heat.

  31. Wagon Tracks

  32. Watch these areas. Be sure to keep it melted into these spots.

  33. Electrode Angles • Up Progression - always point toward center of Pipe • Down Progression - use a steep drag angle

  34. Arc Length • Longer arc lengths = increased puddle heat, flatter welds, deeper penetration • Shorter arc lengths = less puddle heat, flatter welds, less penetration • Use arc length to control puddle size, penetration, and burn through. • Normal arc length is 1/16” - 1/8” • Use a slightly longer arc length during a start or restart.

  35. Helpful Tips • Clean your Welding Hood lens • Drape the cable over your shoulder or knee • Get Comfortable • Watch the puddle, not the arc • Concentrate on steady travel speed and arc length

More Related