Lincoln Electric Comprehensive Guide to Lincoln V205 Welding Techniques and Best Practices

Page 24

B-10

B-10

OPERATION

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STEEL TIG WELDING

The TIG process is very effective for welding both car- bon steel and alloy steel, especially in applications requiring precision results. DC Electrode Negative Polarity is required. Since this process does not include the removal of impurities, proper cleaning and preparation of the edges is required.

FILLER MATERIAL:

The filler rods must deposit welds with mechanical characteristics appropriate for the application.

COPPER TIG WELDING

Since the TIG welding is a process characterized by high heat concentration, it is particularly suitable for welding materials with high thermal conductivity, like copper. As with steel, the DC Electrode Negative Polarity is employed, with argon as protective gas.

Considering the fluidity of molten copper, the use of backup support may prove useful.

FILLER MATERIAL:

In order to avoid the oxidation of the molten material, filler materials containing phosphorus, silicon or other deoxidating materials are typically used. The mechan- ical properties can also be improved through the use of silver.

TIPS FOR AC TIG WELDING

AC Inverter TIG power sources offer two significant advantages over conventional Silicon Controlled Rectifier (SCR) / transformer power sources:

1.The AC wave balance can be set to a higher per- centage electrode negative which minimizes tung- sten heating and erosion.

2.The AC frequency can be varied to "focus" the arc. Increasing the AC frequency above 60Hz will narrow the cone shape arc from the tungsten’s tip. Decreasing the AC frequency below 60Hz will broaden the cone shape arc from the tungsten’s tip.

The two above benefits can be used to maintain a tight focus of the arc for precise heat control and tight joint access. Because of the AC inverters abilities in these areas the following recommendations are made as a starting point:

A 2% Thoriated tungsten is recommended instead of the Pure tungsten that is normally recommended for AC welding. Thoriated tungstens emit electrons eas- ier and therefore will improve starting.

Sharpen the tungsten to a point. Normally it is rec- ommended to pre-ball a pure tungsten when AC welding with a conventional power source. However, the AC inverter with it’s extended AC bal- ance control minimized tungsten heating thus allow- ing for a pointed tungsten to be used.

Set the AC Balance control to maximum 85% elec- trode negative. This can be reduced if the material welded is heavily oxidized, however starting at max- imum and adjusting to less is desired.

Set the AC Frequency in the 100 to 120 Hz range. This is a "Sweet Spot" for most aluminum applica- tions.

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GTAW Process

Electrode Polarity

DC-

AC

 

Approximate Argon

 

Electrode Tip Preparation

Sharpened

Sharpened

 

Gas Flow Rate

 

 

 

 

 

 

 

C.F.H. (l/min.)

 

Electrode Type

 

 

 

 

 

 

 

 

 

 

 

 

EWTh-2, EWLa-1

EWTh-2, EWLa-1

 

 

Stainless

 

 

 

 

 

Electrode Size-in. (mm)

 

 

 

 

Aluminum

Steel

.010

(0.25)

 

Up to 15 A.

Up to 15 A.

 

3-8 (2-4)

3-8

(2-4)

.020

(0.50)

 

Up to 15 A.

Up to 20 A.

 

5-10 (3-5)

5-10

(3-5)

.040

(1.0)

 

Up to 80 A.

Up to 60 A.

 

5-10 (3-5)

5-10

(3-5)

1/16

(1.6)

 

Up to 150 A.

Up to 130 A.

 

5-10 (3-5)

9-13 (4-6)

3/32

(2.4)

 

Up to MAX. A.

Up to MAX. A.

 

13-17 (6-8)

11-15 (5-7)

1/8

(3.2)

 

X

X

 

15-23 (7-11)

11-15

(5-7)

Tungsten electrodes are classified as follows by the American Welding Society (AWS):

 

 

 

 

+2% Thoria .......................EWTh-2...red

 

 

 

 

 

+1.5% Lanthana ...............EWLa-1 ...black

 

 

 

 

 

V205-T AC/DC

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Contents Invertec V205-T AC/DC Safety Electric Shock can kill Cylinder may explode if damaged Précautions DE Sûreté Sûreté Pour Soudage a L’ArcMaster Table of Contents for ALL Sections Table of Contents Installation Section Installation Operating Temperature Range Storage Temperature RangeSelect Suitable Location StackingTilting Environmental AreaReconnect Procedure Input ConnectionsAttachment Plug Installation 230V Input115V Input Engine Driven GeneratorOutput Connection for Stick Output and GAS Connection for TIG Welding Figure A.1Work Cable Connection Remote Control Connection Shielding GAS ConnectionV205-T AC/DC Table of Contents Operation Section Safety Instructions General DescriptionWelding Capability LimitationsRear Control Panel Figure B.1 Figure B.1Controls and Settings Figure B.2Step Diagram Local/Remote push button Selects the weldingTIG DC TIG AC SET UP Menu Indicator Parameter DefaultOutput Limitations Welding PolarityFigure B.5 Steel TIG Welding Copper TIG WeldingTips for AC TIG Welding Filler MaterialAC TIG Welding Quick Start UP Protective GASDC TIG Welding Quick Start UP Table of Contents AccessoriesOptional Accessories Compatible EquipmentCable Plugs TIG Torch KitsTable of Contents Maintenance Safety Precautions Input Filter Capacitor Discharge ProcedureRoutine Maintenance Table of Contents Theory of Operation Section Theory of Operation General DescriptionInput Board and BUS Board Main Igbt Inverter Board Figure E.3 Main Igbt Inverter BoardMain Transformer Output Module Transistor BoardOutput Module and Clamping Board Superimposition BoardCONTROL/DISPLAY Board High Frequency HF Board Output Filter BoardInsulated Gate Bipolar Transistor Igbt Operation Figure E.6 IgbtTable of Contents Troubleshooting & Repair Section Troubleshooting & Repair HOW to USE Troubleshooting GuidePC Board Troubleshooting Procedures Electric Shock can killOutput Problems Function Problems Function Problems Secondary Power Board Test Welding Problems Troubleshooting & Repair External Diagnostics Figure F.1 External DiagnosticsTroubleshooting & Repair Internal Diagnostics Figure F.2Internal Diagnostics LEDV205-T AC/DC Input Filter Capacitor Discharge Procedure DescriptionInput Filter Capacitor Discharge Procedure Discharge ProcedureInput Filter Board Test Input Filter Board Figure F.5 Input Filter Board V205-T AC/DC Main Igbt Inverter Board LOW Voltage Test Main Board LED Table F.1 Test PointsTP2 MF2 Figure F.7 Main Igbt Inverter Board LocationCONTROL/DISPLAY Board Test Control/Display Board CN2 CN7 CN1 Figure F.9 CONTROL/DISPLAY Board LocationCN1 Table F.2 Plug CN1 Test PointsTable F.3 Plug CN2 Test Points Table F.4 Plug CN7 Test PointsBUS Board Test BUS Board Table F.5 Plug CN2 Test Points Table F.6 Plug CN3 Test PointsTable F.7 Plug CN4 Test Points Table F.8 Plug CN7 Test PointsCN2 CN4Main Inverter Board Upfr Section Test Figure F.14 Upfr Location on Main Board Table F.10 Voltage Checks with 115 VAC Applied to MachineTP9 Gndpwr RL1 DD1 MF9V205-T AC/DC Troubleshooting and Repair Output Filter Board TestOutput Filter Board Figure F.17 Output Filter Board Plug Location Figure F.18 Output Filter Board Plug CN1V205-T AC/DC Secondary Power Board Test Secondary Power Board Figure F.20 Secondary Power Board Test Point Locations Table F.13 Voltage Checks with 115 VAC Applied to MachineV205-T AC/DC Main Inverter Board Welding Logic and Inverter Section Test Main Inverter Board Figure F.21 Main Board LocationTable F.15 Feedback Voltage Signals Table F.17 LED Check in Stick ModeTable F.14 LED Functions Table F.16 Voltage Checks with 115 VAC Applied to MachineTP14 TP15 TP16 TP19 TP31 CN4/1-2 Short Circuit Ohms CN5/1-2 Figure F.23 Main Board Lower Left TP9 Ground Power MF15 VDS MF12 MF16 VDSV205-T AC/DC Input Filter Board Removal and Replacement Input Filter Board Removal and Replacement RV1 V205-T AC/DC Main Igbt Board Removal and Replacement Main Igbt Board Removal & Replacement CN2 CN1 V205-T AC/DC CONTROL/DISPLAY Board Removal and Replacement CONTROL/DISPLAY Board Removal & Replacement CN7 CN3V205-T AC/DC Output Filter Board Removal and Replacement Removal and Replacement Casefront Mounting Screws Phillips Head Screws CN1 CN2 Output Diodes Removal and Replacement Output Diodes Figure F.35 Output Diode LocationOutput Transistor Removal and Replacement Output Transistor Removal and Replacement Plug CN1 5mm V205-T AC/DC Electrical Diagrams Table of Contents Electrical Diagrams SectionWiring Diagram V205-T AC/DC Standard Diagram SVM Error Reporting Form