weld defects- repairs
TRANSCRIPT
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WI 3.1
Welding InspectionDefects/Repairs
Course Reference WIS 5
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Defects which may be detected by visual inspection can be grouped under the following headings
CracksCracks
Solid inclusionsSolid inclusions
Surface and profilesSurface and profiles
Misalignment (set-up Misalignment (set-up
irregularities)irregularities)
Gas pores and porosityGas pores and porosity
Lack of fusionLack of fusion
Mechanical damageMechanical damage
Parent material damageParent material damage
MiscellaneousMiscellaneous
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Classified by Shape Longitudinal
Transverse
Branched
Chevron
Classified by Position Classified by Position HAZHAZ CentrelineCentreline CraterCrater Fusion zoneFusion zone Parent metalParent metal
Cracks that may occur in welded materials are caused generally by many factors and may be classified by shape and position, cracks are classed as planar.
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Hydrogen induced cold cracking Hydrogen induced cold cracking (HICC)(HICC)
Solidification cracking (Hot Tearing)Solidification cracking (Hot Tearing)
Lamellar tearingLamellar tearing
Re heat crackingRe heat cracking
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Longitudinal parent metal crack
Longitudinal weld metal crack Lamellar tearing
Transverse weld metal crack
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M.S.RogersCopyright © 2003 TWI LtdTransverse crack Longitudinal crack
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Root piping
Cluster porosityGas pore
Blow holeHerringbone porosity
Loss of gas shieldLoss of gas shield
Damp electrodesDamp electrodes
ContaminationContamination
Arc length too largeArc length too large
Damaged electrode fluxDamaged electrode flux
Moisture on parent materialMoisture on parent material
Welding current too lowWelding current too low
Gas pore <1.5mm Blow hole.>1.5mm
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Root pipingRoot piping
PorosityPorosity
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Cluster porosity Herring bone porosity
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Slag originates from welding Slag originates from welding fluxflux
MAG and TIG welding MAG and TIG welding process produce silica process produce silica inclusionsinclusions
Slag is caused by Slag is caused by inadequate cleaninginadequate cleaning
Other inclusions include Other inclusions include tungsten and copper tungsten and copper inclusions from the TIG and inclusions from the TIG and MAG welding processMAG welding process
Slag inclusions are defined as a non-metallic inclusion caused by some welding process
Slag inclusions
Parallel slag lines Lack of interun fusion + slag
Lack of sidewall fusion with
associated slag
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Elongated slag linesInterpass slag inclusions
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Incomplete filled groove + Lack of sidewall fusion
12
1. Lack of sidewall fusion2. Lack of inter-run fusion
Poor welder skill
Incorrect electrode
manipulation
Arc blow
Incorrect welding
current/voltage
Incorrect travel speed
Incorrect inter-run cleaning
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An imperfection at the toe or root of a weld caused by metal flowing on to the surface of the parent metal
without fusing to it
ContaminationContamination
Slow travel speedSlow travel speed
Incorrect welding techniqueIncorrect welding technique
Current too lowCurrent too low
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Toe OverlapToe OverlapFillet weldFillet weld
Toe OverlapToe OverlapButt weldButt weld
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Incomplete root fusion
Incomplete root penetration
Low Amps/voltsLow Amps/volts
Large Root faceLarge Root face
Small Root GapSmall Root Gap
Fast Travel SpeedFast Travel Speed
Incorrect Electrode AngleIncorrect Electrode Angle
ContaminationContamination
Arc blowArc blow
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Lack of root fusion Lack of root Penetration
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Lack of root penetration Lack of root fusion
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Incomplete filled groove Poor cap profile
Excessive cap height
Poor cap profiles and excessive cap reinforcements may lead to stress concentration points at the weld toes and will also contribute to overall poor toe blend
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Incomplete filled grooveExcess cap reinforcement
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Poor stop/starts
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Spatter
Excessive currentExcessive current
Damp electrodes Damp electrodes
ContaminationContamination
Incorrect wire feed speed Incorrect wire feed speed
when welding with the MAG when welding with the MAG
welding processwelding process
Arc blowArc blow
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Accidental striking of the arc Accidental striking of the arc
onto the parent materialonto the parent material
Faulty electrode holder Faulty electrode holder
Poor cable insulationPoor cable insulation
Poor return lead clampingPoor return lead clamping
Arc strike
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An irregular groove at the toe of a weld run in the parent metal
Excessive amps/voltsExcessive amps/volts
Excessive travel speedExcessive travel speed
Incorrect electrode angleIncorrect electrode angle
Excessive weavingExcessive weaving
Incorrect welding techniqueIncorrect welding technique
Electrode too largeElectrode too large
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Measured in both Length & DepthMeasured in both Length & Depth
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Cap undercutRoot undercut
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Shrinkage groove
Insufficient weld metal Insufficient weld metal deposited in the root passdeposited in the root pass
Too fast a cooling rate during Too fast a cooling rate during the application of the root the application of the root bead passbead pass
Poor welding techniquePoor welding technique
A shallow groove caused by contraction in the weld metal along each side of the penetration bead
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Concave root
Root faces too largeRoot faces too large
Root gap too largeRoot gap too large
Excessive back purge pressure Excessive back purge pressure during TIG weldingduring TIG welding
Excessive root bead grinding Excessive root bead grinding before the application of the before the application of the second passsecond pass
A shallow groove, which may occur in the root of a butt weld
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Excessive root penetration
Root faces too smallRoot faces too small
Root gap too largeRoot gap too large
Excessive amps/voltsExcessive amps/volts
Slow travel speedSlow travel speed
Root penetration bead in excess in accordance with the relevant specification being used
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Concave root Excessive root penetration
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High Amps/voltsHigh Amps/volts
Small Root faceSmall Root face
Large Root GapLarge Root Gap
Slow Travel SpeedSlow Travel SpeedBurn through
A localized collapse of the weld pool due to excessive penetration resulting in a hole in the root run
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Burn through
Burn Through
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Loss or insufficient back Loss or insufficient back
purging gaspurging gas
Most commonly occurs Most commonly occurs
when welding stainless when welding stainless
steelssteels
Purging gases include Purging gases include
argon, helium and argon, helium and
occasionally nitrogen occasionally nitrogen
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Crater pipeCrater pipe
Weld craterWeld crater
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Crater pipe is a shrinkage defect and not a gas defect, it has the appearance of a gas pore in the weld crater
Too fast a cooling rateToo fast a cooling rate
Deoxidization Deoxidization
reactions and liquid to reactions and liquid to
solid volume changesolid volume change
ContaminationContamination
Crater cracksCrater cracks(Star cracks)(Star cracks)
Crater pipeCrater pipe
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Mechanical damage can be defined as any surface material damage cause during the manufacturing process.This can included damage caused by:
Grinding
Hammering
Chiselling
Chipping
Breaking off welded attachments (torn surfaces)
Using needle guns to compress weld capping runs
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A variation of leg lengths on a fillet weld
Note: Unequal leg lengths on a fillet weld may be specified as part of the design, in which case it will not be considered as a defect.
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Plate/pipe Linear Misalignment (Hi-Lo)
Angular Misalignment
Linear misalignment is measured from the lowest plate to the highest point of the cap
Angular misalignment is measured in degrees
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mm
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QU 1. Give two main causes for the occurrence of a burn through
QU 2. Give two main causes for the occurrence of excessive root penetration on a single-V butt weld
QU 3. Give five defects, which may occur when welding carbon steel using the MMA welding process with the current setting to low
QU 4. Give three possible causes for the occurrence of lack of side wall fusion
QU 5. Sketch the following defectsa. Lack of root wall fusion b. Lack of root penetrationc. Incomplete filled groove d. Concave root
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All materials arriving on site should be inspected for:
Size / dimensions
Condition
Type / specification
In addition other elements may need to be considered depending on the materials form or shape
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Parent material defects include:
Lamination
Mechanical damage Lap
Segregation line
Laminations are caused in the parent plate by the steel making process, originating from ingot casting defects.Segregation bands occur in the centre of the plate and are low melting point impurities such as sulphur and phosphorous.Laps are caused during rolling when overlapping metal does not fuse to the base material.
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Authorization for repair
Removal and preparation for repair
Testing of repair - visual and NDT
In the event of repairIn the event of repair
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A weld repair may be used to improve weld profiles or A weld repair may be used to improve weld profiles or extensive metal removalextensive metal removal
Repairs to fabrication defects are generally easier than Repairs to fabrication defects are generally easier than repairs to service failures because the repair procedure may repairs to service failures because the repair procedure may be followedbe followed
The main problem with repairing a weld is the maintenance The main problem with repairing a weld is the maintenance of mechanical propertiesof mechanical properties
During the inspection of the removed area prior to welding During the inspection of the removed area prior to welding the inspector must ensure that the defects have been totally the inspector must ensure that the defects have been totally removed and the original joint profile has been maintained removed and the original joint profile has been maintained as close as possible as close as possible
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The specification or procedure will govern how the defective areas are to be removed. The method of removal may be
GrindingGrinding
ChippingChipping
MachiningMachining
FilingFiling
Oxy-Gas gougingOxy-Gas gouging
Arc air gougingArc air gouging
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QU 1. State six points of importance of repair welding.
QU 2. State two NDT methods that may be applied to a repair in a weld
QU 3. State three documents, which the inspector should refer to when carrying out repairs.
QU 4. In some cases why might a specification not allow a crack to be repaired, regardless of size and orientation?