Welding Defects

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  1. djhelliweld
    I used this to train QA/QC Engineers in Asia, what defects are and the
    Transcript Header:
    Welding Defects
    Transcript Body:
    • 1. Defects and Discontinuities ESC DEFECTS TRAINING QA/QC
    • 2. Defect
      • A flaw or flaws that by nature or accumulated effect render a pile or product unable to meet minimum BS EN 288 acceptance standards or specifications. The term designates rejectability. Repair or in very worst situation scrap this should never be an option at ESC it is not cost effective!
    • 3. Discontinuity
      • An interruption of the typical structure of a material, such as a lack of evenness####### in its mechanical, metallurgical, or physical characteristics. A discontinuity is not necessarily a defect. E.g. To much reinforcement does not require repair it is not cost effective to over weld, but it is less so to repair over weld.
    • 4. Weld Joint Discontinuities
      • Inclusions
        • Slag
        • Wagon tracks
        • Tungsten
      • Spatter
      • Arc Craters
      • Cracks
        • Longitudinal
        • Transverse
        • Crater
        • Throat
        • Toe
        • Root
        • Cold or delayed
        • Underbead and Heat-affected zone
        • Hot
      • Misalignment (hi-lo)
      • Undercut
      • Underfill
      • Concavity or Convexity
      • Excessive reinforcement
      • Improper reinforcement
      • Overlap
      • Burn-through
      • Incomplete or Insufficient Penetration
      • Incomplete Fusion
      • Surface irregularity
        • Overlap
      • Arc Strikes
      • Base Metal Discontinuities
        • Lamellar tearing
        • Laminations and Delaminations
        • Laps and Seams
      • Porosity
        • Uniformly Scattered
        • Cluster
        • Linear
        • Piping
      • Heat-affected zone microstructure alteration
      • Base Plate laminations
      • Size or dimensions
    • 5. Misalignment (hi-lo)
      • Definition: Amount a joint is out of alignment at the root
      • Cause: Carelessness. Also due to joining different thicknesses (transition thickness)
      • Prevention: Workmanship. Transition angles not to exceed 2.5 to 1.
      • Repair: Grinding. Careful on surface finish and direction of grind marks. Inside of Pipe /Tube difficult.
    • 6. Misalignment
    • 7. Undercut
      • Definition: A groove cut at the toe of the weld and left unfilled.
      • Cause: High amperage, electrode angle, long arc length, rust
      • Prevention: Set machine on scrap metal to correct parameters. Clean metal before welding.
      • Repair: Weld with smaller electrode, sometimes must be low hydrogen with preheat. Sometimes must gouge first.
    • 8. Undercut
      • Undercut typically has an allowable limit. Different codes and standards vary greatly in the allowable amount.
      • Plate - the lesser of 0.8mm or 5% (norm)
      • ESC EN BS288 allows up to 1mm anything deeper than this must be repaired!
    • 9. Under Cut
    • 10. Insufficient Fill or Under fill
      • Definition: The weld surface is below the adjacent surfaces of the base metal
      • Cause: Improper welding techniques
      • Prevention: Apply proper welding techniques for the weld type and position. Use stripper beads before the cover pass.
      • Repair: Simply weld to fill. May require preparation by grinding.
    • 11. Under fill
    • 12. Insufficient Fill on the Root Side (suckback)
      • Definition: The weld surface is below the adjacent surfaces of the base metal at the weld root.
      • Cause: Typically improper joint preparation or excessive weld pool heat.
      • Prevention: Correct cause. (see next slide)
      • Repair: Backweld to fill. May requireremoval of weld section by grinding for access to the joint root.
    • 13. Cause for Insufficient Fill at the Root Some liquids, like water or molten steel, try to cover as much surface area of whatever they are in contact with as possible. Welding a root pass too wide can also cause the bead to sag (overhead position).
    • 16. Removing a root pass by grinding 1. Recreate the groove geometry as closely as possible. 2. Use a saw or die grinder and 1/16 - 1/8” cut off wheel to recreate root opening. Remember repairs are sometimes required to be made with a smaller electrode. 3. Open the groove angle. Be careful to leave the proper root face dimension. 4. Feather the start and stop to blend smoothly into and out of the existing weld.
    • 18. Excessive Concavity or Convexity
      • Definition: Concavity or convexity of a fillet weld which exceeds the specified allowable limits
      • Cause: Amperage and travel speed
      • Prevention: Observe proper parameters and techniques.
      • Repair: Grind off or weld on. Must blend smoothly into the base metal.
    • 19. Concavity
    • 20. Root Concavity
    • 21. Convexity
    • 22. Reinforcement
      • Excessive
      • Insufficient
      • Improper contour
      The amount of a groove weld which extends beyond the surface of the plate Face Reinforcement Root Reinforcement
    • 23. Excessive Reinforcement
      • Definition: Specifically defined by the standard. Typically, Reinforcement should be flush to 1/16”(pipe) or flush to 1/8” (plate or structural shapes).
      • Cause: Travel speed too slow, amperage too low
      • Prevention: Set amperage and travel speed on scrap plate.
      • Repair: Remove excessive reinforcement and feather the weld toes to a smooth transition to the base plate.
    • 24. Excessive Penetration
    • 25.
      • Definition: Specifically defined by the standard. Typically, Underfill may be up to 5% of metal thickness not to exceed 1/32” as long as the thickness is made up in the opposite reinforcement. Not applied to fillet welds.
      • Cause: On root reinforcement - Too little filler metal will cause thinning of the filler metal. In OH position, too hot or too wide will cause drooping of the open root puddle.
      • Prevention: Use proper welding technique. Use backing or consumable inserts. Use back weld or backing.
      • Repair: Possibly simply increase the face reinforcement. If backwelding is not possible, must remove and reweld.
      Insufficient Reinforcement
    • 26.
      • Definition: When the weld exhibits less than a 135 0 transition angle at the weld toe.
      • Cause: Poor welding technique
      • Prevention: Use proper techniques. A weave or whip motion can often eliminate the problem.
      • Repair: The weld face must be feathered into the base plate.
      135 0 Improper Weld Contour
    • 27. Overlap
      • Definition: When the face of the weld extends beyond the toe of the weld
      • Cause: Improper welding technique. Typically, electrode angles and travel speed.
      • Prevention: Overlap is a contour problem. Proper welding technique will prevent this problem.
      • Repair: Overlap must be removed to blend smoothly into the base metal. Be careful of deep grind marks that run transverse to the load. Also be careful of fusion discontinuities hidden by grinding. Use NDT to be sure.
    • 28. Overlap Overlap is measured with a square edge such as a 6” rule. No amount of overlap is typically allowed.
    • 29. Burn-through (non-standard)
      • Definition: When an undesirable open hole has been completely melted through the base metal. The hole may or may not be left open.
      • Cause: Excessive heat input.
      • Prevention: Reduce heat input by increasing travel speed, use of a heat sink, or by reducing welding parameters.
      • Repair: Will be defined by standards. Filling may suffice. Otherwise, removal and rewelding may be required. Some standards may require special filler metal and/or PWHT.
    • 30. Incomplete or Insufficient Penetration
      • Definition: When the weld metal does not extend to the required depth into the joint root
      • Cause: Low amperage, low preheat, tight root opening, fast travel speed, short arc length.
      • Prevention: Correct the contributing factor(s).
      • Repair: Back gouge and back weld or remove and reweld.
    • 31. ICP
    • 32. Incomplete Fusion
      • Definition: Where weld metal does not form a cohesive bond with the base metal.
      • Cause: Low amperage, steep electrode angles, fast travel speed, short arc gap, lack of preheat, electrode too small, unclean base metal, arc off seam.
      • Prevention: Eliminate the potential causes.
      • Repair: remove and reweld, being careful to completely remove the defective area. This is sometimes extremely difficult to find.
    • 33. Lack of Side Wall Fusion
    • 34. Arc Strike
      • Definition: A localized coalescence outside the weld zone.
      • Cause: Carelessness
      • Prevention: In difficult areas, adjacent areas can be protected using fire blankets.
      • Repair: Where applicable, arc strikes must be sanded smooth and tested for cracks. If found, they must be remove and repaired using a qualified repair procedure and inspected as any other weld.
    • 35. Arc Strike
    • 36. Weld Spatter Causes Prevention High arc power Reduce arc power Magnetic arc blow Reduce arc length or switch to AC power Incorrect settings for GMAW process Modify electrical settings (but be careful to maintain full fusion Damp electrodes Use dry electrodes
    • 37. Inclusions
      • Slag
      • Wagontracks
      • Tungsten
    • 38.
      • Definition: Slag entrapped within the weld
      • Cause: Low amperage, improper technique, Trying to weld in an area that is too tight. Slow travel in Vertical Down
      • Prevention: Increase amperage or preheat, grind out tight areas to gain access to bottom of joint.
      • Repair: Remove by grinding. Reweld.
      Slag Inclusion
    • 39. Slag Inclusion
    • 40.
      • Definition: Slang term for a groove left at the toe of a root pass which becomes filled with slag and is trapped in the weld.
      • Cause: The contour of the root pass is too high, or the weld toe is not bonded to the base metal
      • Prevention: Use proper technique to deposit the weld root.
      • Repair: Best repaired before applying the hot pass. Carefully grind the root pass face flat. be careful not to gouge other areas on the weldment.
      Wagon Tracks (non-standard)
    • 41.
      • Definition: A tungsten particle embedded in a weld. (Typically GTAW only)
      • Cause: Tungsten electrode too small, amperage too high, AC balance on +, Upslope too high, electrode tip not snipped, electrode dipped into the weld pool or touched with the fill rod, electrode split.
      • Prevention: Eliminate the cause
      • Repair: Grind out and reweld
      Tungsten Inclusion
    • 42. Inclusions
      • fix when you see it. otherwise grind out & fix
    • 43. Whiskers
      • Unsightly
      • Inhibits material flow in piping
      • Are inclusions
      • Can break off in pipes and damage equipment downline
    • 44. Spatter
      • Definition: Small particles of weld metal expelled from the welding operation which adhere to the base metal surface.
      • Cause: Long arc length, severe electrode angles, high amperages.
      • Prevention: Correct the cause. Base metal can be protected with coverings or hi-temp paints.
      • Repair: Remove by grinding or sanding. Sometimes must be tested as if it were a weld.
    • 45. Arc Craters
      • Definition: A depression left at the termination of the weld where the weld pool is left unfilled.
      • Cause: Improper weld termination techniques
      • Prevention:
      • Repair: If no cracks exist, simply fill in the crater. Generally welding from beyond the crater back into the crater.
    • 46. Cracks
      • Longitudinal
      • Transverse
      • Crater
      • Throat
      • Toe
      • Root
      • Underbead and Heat-affected zone
      • Hot
      • Cold or delayed
    • 47.
      • Definition: A crack running in the direction of the weld axis. May be found in the weld or base metal.
      • Cause: Preheat or fast cooling problem. Also caused by shrinkage stresses in high constraint areas.
      • Prevention: Weld toward areas of less constraint. Also preheat to even out the cooling rates.
      • Repair: Remove and reweld
      Longitudinal Crack
    • 48.
      • Definition: A crack running into or inside a weld, transverse to the weld axis direction.
      • Cause: Weld metal hardness problem
      • Prevention: Minimize heat input and monitor interpass temperature max 200 c
      • Repair: Dependant on specification and matterial
      Transverse Crack
    • 49.
      • Definition: A crack, generally in the shape of an “X” which is found in a crater. Crater cracks are hot cracks.
      • Cause: The center of the weld pool becomes solid before the outside of the weld pool, pulling the center apart during cooling
      • Prevention: Use crater fill, fill the crater at weld termination and/or preheat to even out the cooling of the puddle
      • Repair:
      Crater Crack
    • 50.
      • Definition: A longitudinal crack located in the weld throat area.
      • Cause: Transverse Stresses, probably from shrinkage. Indicates inadequate filler metal selection or welding procedure. May be due to crater crack propagation.
      • Prevention: Correct initial cause. Increasing preheat may prevent it. be sure not to leave a crater. Use a more ductile filler material.
      • Repair: Remove and reweld using appropriate procedure. Be sure to correct initial problem first.
      Throat Crack
    • 51.
      • Definition: A crack in the base metal beginning at the toe of the weld
      • Cause: Transverse shrinkage stresses. Indicates a HAZ brittleness problem.
      • Prevention: Increase preheat if possible, or use a more ductile filler material.
      • Repair:
      Toe Crack
    • 52. Toe Crack
    • 53.
      • Definition: A crack in the weld at the weld root.
      • Cause: Transverse shrinkage stresses. Same as a throat crack.
      • Prevention: Same as a throat crack
      • Repair:
      Root Crack
    • 54. Root Crack
    • 55.
      • Definition: A crack in the unmelted parent metal of the HAZ.
      • Cause: Hydrogen embrittlement
      • Prevention: Use Lo/Hi electrodes and/or preheat
      • Repair: (only found using NDT). Remove and reweld.
      Underbead Crack
    • 56.
      • Definition: A crack in the weld that occurs during solidification.
      • Cause: Micro stresses from weld metal shrinkage pulling apart weld metal as it cools from liquid to solid temp.
      • Prevention: Preheat or use a low tensil filler material.
      • Repair:
      Hot Crack
    • 57.
      • Definition: A crack that occurs after the metal has completely solidified
      • Cause: Shrinkage, Highly restrained welds, Discontinuities
      • Prevention: Preheat, weld toward areas of less constraint, use a more ductile weld metal
      • Repair: Remove and reweld, correct problem first, preheat may be necessary.
      Cold Crack
    • 58. Cold Crack or Weld Metal Hydrogen Crack
    • 59. Repairs to Cracks
      • Determine the cause
      • Correct the problem
      • Take precautions to prevent reoccurrence
      • Generally required to repair using a smaller electrode
    • 60. Base Metal Discontinuities
      • Lamellar tearing
      • Laminations and Delaminations
      • Laps and Seams
    • 61. Lamellar Tearing
    • 62. Laminations
      • Base Metal Discontinuity
      • May require repair prior to welding
      • Formed during the milling process
    • 63. Lamination effects can be reduced by joint design:
    • 64. Laps and Seams A mill-induced discontinuity in which results from a lump of metal being squeezed over into the surface of the material. If beyond acceptable limits, must be removed and repaired or discarded.
    • 65. Porosity
      • Single Pore
      • Uniformly Scattered
      • Cluster
      • Linear
      • Piping
    • 66. Porosity
    • 67. Single Pore
      • Separated by at least their own diameter along the axis of the weld
    • 68. Uniformly Scattered Porosity
      • Typically judged by diameter and proximity to a start or stop
      • often caused by low amperage or short arc gap or an unshielded weld start
    • 69. Cluster Porosity
      • Typically viewed as a single large discontinuity
    • 70. Linear Porosity
      • being linear greatly affects the severity of this discontinuity
    • 71. Piping Porosity
      • Generally has special allowable limits
    • 72. Porosity
      • preheat will help eliminate
      • may need an electrode with more deoxidizers
      • Use run-on/run-off taps
      • restart on top of previous weld and grind off lump
    • 73. Heat-affected zone microstructure alteration
      • add drawing of HAZ of groove weld with leaders to:
        • grain refinement
        • grain growth
        • hardened areas
        • softened areas
        • precipitate suseptable areas.
    • 74. Size or dimension
      • If it renders the part unusable, it is a defect.
      • If it is outside the allowable limit, it renders the part unusable.
      • Things don’t have to be perfect, just within the acceptable tolerance. Working to perfection is too time consuming and costly
    • 75. Hammer marks
      • Stress risers
      • Unsightly
      • Unnecessary
    • 76. REPAIR TECHNIQUES
      • May involve:
        • different process
        • different procedure
        • different preheat/PWHT
        • different electrode
        • smaller electrode
    • 77. Only repair defects. Discontinuities are by definition acceptable. Repair is therefore unnecessary and not cost effective.
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