Miller Electric DVI-2 R Troubleshooting − Lack Of Penetration, Troubleshooting − Burn-Through

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8-11. Troubleshooting − Lack Of Penetration

	Lack Of Penetration − shallow
	fusion between weld metal and
	base metal.
Lack of Penetration	Good Penetration
	S-0638
Possible Causes	Corrective Actions
Improper joint preparation.	Material too thick. Joint preparation and design must provide access to bottom of groove while
	maintaining proper welding wire extension and arc characteristics.

Improper weld technique.

Maintain normal gun angle of 0 to 15 degrees to achieve maximum penetration.

Keep arc on leading edge of weld puddle.

Be sure welding wire extends not more than 1/2 in (13 mm) beyond nozzle.

Insufficient heat input.

Select higher wire feed speed and/or select higher voltage range.

Reduce travel speed.

Incorrect polarity.

Check polarity required by welding wire, and change to correct polarity at welding power source.

8-12. Troubleshooting − Incomplete Fusion

	Incomplete Fusion − failure of weld metal to fuse completely with
	base metal or a preceeding weld bead.
	S-0637
Possible Causes	Corrective Actions
Workpiece dirty.	Remove all grease, oil, moisture, rust, paint, undercoating, and dirt from work surface before
	welding.

Insufficient heat input.

Select higher voltage range and/or adjust wire feed speed.

Improper welding technique.

Place stringer bead in proper location(s) at joint during welding.

Adjust work angle or widen groove to access bottom during welding.

Momentarily hold arc on groove side walls when using weaving technique.

Keep arc on leading edge of weld puddle.

Use correct gun angle of 0 to 15 degrees.

8-13. Troubleshooting − Burn-Through

Burn-Through − weld metal melting completely through base metal resulting in holes where no metal remains.

S-0640

Possible Causes

Corrective Actions

Excessive heat input.

Select lower voltage range and reduce wire feed speed.

Increase and/or maintain steady travel speed.

OM-232 386 Page 38

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Contents Description OM-232 386BProcesses File MIG GmawFrom Miller to You Table of Contents − Parts List − MIG Welding Gmaw GuidelinesTypical MIG Process Connections Electric Shock can kill Symbol UsageArc Welding Hazards HOT Parts can cause severe burnsWelding can cause fire or explosion Fumes and Gases can be hazardousARC Rays can burn eyes and skin Flying Metal or Dirt can injure eyesFalling Unit can cause injury Welding Wire can cause injuryFire or Explosion hazard Moving Parts can cause injuryEMF Information Principal Safety StandardsCalifornia Proposition 65 Warnings About Implanted Medical DevicesSymboles utilisés UNE Décharge Électrique peut entraîner la mortDES Pièces Chaudes peuvent provoquer des brûlures graves LES Fumées ET LES GAZ peuvent être dangereuxLE Soudage peut provoquer un in cendie ou une explosion Risque D’INCENDIE OU D’EXPLO LE Bruit peut endommager l’ouïeLES Bouteilles peuvent exploser si elles sont endommagées LA Chute DE L’APPAREIL peut blesserProposition californienne 65 Avertissements LES Fils DE Soudage peuvent provoquer des blessuresLE Soudage À L’ARC risque de provoquer des interférences Principales normes de sécurité Information EMFEn ce qui concerne les implants médicaux OM-232 386 Specifications − InstallationSymbols And Definitions − DefinitionsOverheating Duty Cycle And Overheating40% duty cycle at 150 amps Minutes Welding Minutes Resting MinutesVolt-Ampere Curves Connecting To Weld Output TerminalsCorrect Installation Range Range 4 RangePolarity Changeover Label Information Installing Work Cable And ClampSetting Gun Polarity For Wire Type 11/16Installing Gas Supply Rear PanelTools Needed 8, 5/8 Use compression spring Installing MIG Wire Spool and Adjusting Hub TensionInstalling 1 Or 2 lb Wire Spool With 8 in 200 mm spools To turn spool, tension is setConnecting 1-Phase Input Power For 230 VAC 230 VAC =GND/PE Earth GroundElectrical Service Guide For 230 VAC Hz Single PhaseExtension Cord Data Selecting a Location And Connecting Input Power Do not move or operate unit where it could tip18 in 457 mm of space for airflow Scale Threading Welding WirePressure Remove gun nozzle and contact tipTurn Off unit, and disconnect input power Connecting An Optional Spool Gun − Operation ControlsVoltage Control Input Line Weld Parameter ChartVoltage Chart Settings Parameter226 652-A Changing Drive Roll and Wire Inlet Guide − Maintenance &TROUBLESHOOTINGRoutine Maintenance Unit OverloadTurn Off power Aligning Drive Rolls and Wire GuideTroubleshooting Welding Trouble RemedyWire Drive/Gun Trouble Remedy OM-232 386 − Electrical Diagram Welding Power Source Circuit Diagram229 598-B − MIG Welding Gmaw Guidelines Typical MIG Process ConnectionsAmperage Typical MIG Process Control SettingsWire Size Amperage Range Select VoltageHolding And Positioning Welding Gun Groove WeldsPerpendicular Drag Conditions That Affect Weld Bead ShapePush Short Normal LongPoor Weld Bead Characteristics Good Weld Bead CharacteristicsGun Movement During Welding Troubleshooting − Excessive Penetration Troubleshooting − Excessive SpatterTroubleshooting − Porosity Possible Causes Corrective ActionsTroubleshooting − Lack Of Penetration Troubleshooting − Incomplete FusionTroubleshooting − Burn-Through Troubleshooting − Waviness Of Bead Troubleshooting − DistortionWeld bead Common MIG Shielding Gases Troubleshooting Guide For Semiautomatic Welding EquipmentProblem Probable Cause Remedy ApplicationWelding power source Welding arc not stable Wire slipping in drive rollsReadjust welding parameters Drive rolls if necessary− Parts List Drive Roll And Wire Guide KitsService Your distributor also givesSupport For assistance in filing or settling claims, contact To locate a Distributor or Service Agency visitMiller Electric Mfg. Co Your distributor and/or equipment manufacturer’s