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Published byJustin Curtis Modified over 9 years ago
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TIG Welding Introduction
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2 Outline ► Background/Advantages & Disadvantages Background ► Safety Safety ► Preparation for TIG Welding Preparation for TIG Welding Preparation for TIG Welding ► Techniques for Basic Weld Joints Techniques for Basic Weld Joints Techniques for Basic Weld Joints ► TIG Shielding Gases TIG Shielding Gases TIG Shielding Gases ► Welding Parameters Welding Parameters Welding Parameters ► Tungsten Electrode Selection Tungsten Electrode Selection Tungsten Electrode Selection ► Conclusion
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3 Conclusion ►T►T►T►TIG welding is an exciting skill that proves itself useful in countless applications ►B►B►B►Because it welds more metal and metal alloys than any other process, TIG welding should be regarded as an important tool where experience is the teacher ►W►W►W►Welding parameters and tungsten electrode selection tables are recommended values and should be used as a guideline ►I►I►I►Information presented here is only the tip of the iceberg, and further research and hands-on involvement should be pursued to be comprehensive
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4 Background ► What is TIG? Tungsten Inert Gas ► Also referred to as GTAW Gas Shielded Tungsten Welding ► In TIG welding, a tungsten electrode heats the metal you are welding and gas (most typically Argon) protects the weld from airborne contaminants
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5 Background ► TIG welding uses a non-consumable tungsten ► Filler metal, when required, is added by hand ► Shielding gas protects the weld and tungsten
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6 Advantages ► Welds more metals and metal alloys than any other process ► High quality and precision ► Pin point control ► Aesthetic weld beads ► No sparks or spatter ► No flux or slag ► No smoke or fumes
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7 Disadvantages ► Lower filler metal deposition rates ► Good hand-eye coordination a required skill ► Brighter UV rays than other processes ► Slower travel speeds than other processes ► Equipment costs tend to be higher than other processes
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8 Safety ► Electric shock can kill. Always wear dry insulating gloves Insulate yourself from work and ground Do not touch live electrical parts Keep all panels and covers securely in place ► Fumes and gases can be hazardous to your health. Keep your head out of the fumes Ventilate area, or use breathing device
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9 Safety ► Welding can cause fire or explosion. Do not weld near flammable material Watch for fire; keep extinguisher nearby Do not locate unit over combustible surfaces Do not weld on closed containers ► Arc rays can burn eyes and skin; Noise can damage hearing. Wear welding helmet with correct shade of filter Wear correct eye, ear, and body protection
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10 Safety ► Hot parts can cause injury. Allow cooling period before touching welded metal Wear protective gloves and clothing ► Magnetic fields from high currents can affect pacemaker operation. ► Flying metal can injure eyes. Welding, chipping, wire brushing, and grinding cause sparks and flying metal; wear approved safety glasses with side shields
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11 Safety ► Welding current can damage electronic parts in vehicles. Disconnect both battery cables before welding on a vehicle Place work clamp as close to the weld as possible
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12 Techniques for Basic Weld Joints Arc Length ► Arc length normally one electrode diameter, when AC welding with a balled end electrode ► When DC welding with a pointed electrode, arc length may be much less than electrode diameter *Figure copied from “TIG Handbook”
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13 Techniques for Basic Weld Joints Gas Cup Size ► Inside diameter of gas cup should be at least three times the tungsten diameter to provide adequate shielding gas coverage ► Picture on right shows example of gas cup size and torch position 1-Workpiece, 2-Work clamp, 3-Torch, 4-Filler rod, 5-Gas cup, 6-Tungsten electrode *Figure copied from “TIG Handbook”
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14 Techniques for Basic Weld Joints Electrode Extension ► Refers to distance the tungsten extends out beyond the gas cup ► May vary from flush with the gas cup to no more than the inside diameter of the gas cup ► Longer the extension, the more likely it may contact something by accident ► General rule would be to start with an extension of one electrode diameter
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15 Techniques for Basic Weld Joints Arc Starting with High Frequency ► Torch position on left shows recommended method of starting the arc with high frequency when the torch is held manually ► By resting gas cup on base metal there is little danger of touching the electrode to the work ► After arc is initiated, torch can be raised to proper welding angle *Figure copied from “TIG Handbook”
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ENBE 49916 Techniques for Basic Weld Joints Manual Torch Movement *Figure copied from “TIG Handbook”
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17 Techniques for Basic Weld Joints Manual Torch Movement ► Torch and filler rod must be moved progressively and smoothly so the weld pool, the hot filler rod end, and the solidifying weld are not exposed to air that will contaminate the weld metal area or heat affected zone ► When arc is turned off, postflow of shielding gas should shield the weld pool, electrode, and hot end of the filler rod
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18 Techniques for Basic Weld Joints Butt Weld and Stringer Bead ► Be sure to center weld pool on adjoining edges ► When finishing a butt weld, torch angle may be decreased to aid in filling the crater Torch and rod position for welding the butt weld and stringer bead *Figure copied from “TIG Handbook”
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19 Techniques for Basic Weld Joints Lap Joint ► Pool is formed so that the edge of the overlapping piece and the flat surface of the second piece flow together ► Torch angle is important because the edge will become molten before the flat surface ► Enough filler metal must be added to fill the joint as illustrated on the right Torch and rod position for welding the lap joint *Figure copied from “TIG Handbook”
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20 Techniques for Basic Weld Joints T-Joint ► Edge will heat up and melt sooner ► Torch angle illustrated will direct more heat onto the flat surface ► Electrode may need to be extended further beyond the cup in order to hold a short arc Torch and rod position for welding the T-joint *Figure copied from “TIG Handbook”
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21 Techniques for Basic Weld Joints Corner Joint ► Both edges of the adjoining pieces should be melted and the pool kept on the joint centerline ► Sufficient filler metal is necessary to create a convex bead as shown Torch and rod position for welding the corner joint *Figure copied from “TIG Handbook”
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22 TIG Shielding Gases ► Argon ► Helium ► Argon/Helium Mixtures
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23 TIG Shielding Gases Argon ► Good arc starting ► Good cleaning action ► Good arc stability ► Focused arc cone ► Lower arc voltages ► 10-30 CFH flow rates Helium ► Faster travel speeds ► Increased penetration ► Difficult arc starting ► Less cleaning action ► Less low amp stability ► Flared arc cone ► Higher arc voltages ► Higher flow rates (2x) ► Higher cost than argon
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24 TIG Shielding Gases Argon/Helium Mixtures ► Improved travel speeds over pure argon ► Improved penetration over pure argon ► Cleaning properties closer to pure argon ► Improved arc starting over pure helium ► Improved arc stability over pure helium ► Arc cone shape more focused than pure helium ► Arc voltages between pure argon and pure helium ► Higher flow rates than pure argon ► Costs higher than pure argon
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25 Welding Parameters Aluminum weld parameters *Figure copied from “TIG Handbook”
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26 Welding Parameters Aluminum with advanced squarewave weld parameters *Figure copied from “TIG Handbook”
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27 Welding Parameters Stainless steel weld parameters *Figure copied from “TIG Handbook”
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28 Welding Parameters Titanium weld parameters *Figure copied from “TIG Handbook”
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29 Welding Parameters Mild steel weld parameters *Figure copied from “TIG Handbook”
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30 Tungsten Electrode Selection Guide to selecting a tungsten electrode based on amperage range *Figure copied from “Guidelines to Gas Tungsten Arc Welding (GTAW)”
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