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Gas Metal Arc Welding (Metal Inert Gas) (MIG)

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Presentation on theme: "Gas Metal Arc Welding (Metal Inert Gas) (MIG)"— Presentation transcript:

1 Gas Metal Arc Welding (Metal Inert Gas) (MIG)
GMAW Fundamentals Gas Metal Arc Welding (Metal Inert Gas) (MIG)

2 Introduction GMAW is defined as arc welding using a continuously fed consumable electrode and a shielding gas. GMAW is also known as MIG (Metal Inert Gas). Produces high-quality welds Yields high productivity

3 Advantages Large gaps filled or bridged easily
Welding can be done in all positions No slag removal required High welding speeds High weld quality Less distortion of work piece

4 Types of Metal Transfer
The basic GMAW process includes three distinctive process techniques: Short Circuit (Short Arc) Globular Transfer Spray Arc Transfer

5 Short Circuit (Short Arc)
Operates at low voltages and welding current Small fast-freezing weld puddle obtained Useful in joining thin materials in any position, as well as thick materials in vertical and overhead positions Metal transfer occurs when an electrical short circuit is established

6 Globular Transfer Welding current and wire speed are increased above maximum for short arc Droplets of metal have a greater diameter than the wire being used Spatter present Welding is most effectively done in the flat position when using globular transfer

7 Spray Arc Transfer Occurs when the current and voltage settings are increased higher than that used for Globular Transfer Used on thick sections of base material, best suited for flat position due to large weld puddle Spatter is minimal to none

8 Manual GMAW Equipment Three major elements are :
1.) Welding torch and accessories 2.) Welding control & Wire feed motor 3.) Power Source GMAW equipment can be used either manually or automatically

9 GMAW Components DC or Direct Current power supply
Electrode or wire feed controller Wire drive roller assembly Shielding gas source (cylinder) & regulator Manually held Gun & ground clamps Wire reel

10 GMAW component diagram

11 WIRE CONTROL & WIRE FEED MOTOR POWER SOURCE

12 Welding Torch & Accessories
The welding torch guides the wire and shielding gas to the weld zone. Brings welding power to the wire also Major components/parts of the torch are the contact tip, shielding gas nozzle, gas diffuser, and the wire conduit

13 GAS DIFFUSER NOZZLE TRIGGER CONTACT TIP INSTALLED COMPONENTS

14 Welding Control & Wire Feed Motor
Welding control & Wire feed motor are combined into one unit Main function is to pull the wire from the spool and feed it to the arc Controls wire feed speed and regulates the starting and stopping of wire feed Wire feed speed controls Amperage

15 WIRE FEEDER

16

17 Power Source Almost all GMAW is done with reverse polarity also known as DCEP Positive (+) lead is connected to the torch Negative (-) lead is connected to the work piece Provides a relatively consistent voltage to the arc Arc Voltage is the voltage between the end of the wire and the work piece

18 POWER SOURCE POSITIVE TERMINAL NEGATIVE TERMINAL

19 Shielding Gases Purpose of shielding gas is the protect the weld area from the contaminants in the atmosphere Gas can be Inert, Reactive, or Mixtures of both Gas flow rate is between CFH Argon, Helium, and Carbon Dioxide are the main three gases used in GMAW

20 FLOW METER CFH PRESSURE ADJUSTMENT KNOB CYLCINDER PRESSURE GAUGE

21 Shielding Gas Air in the welding zone is displaced by inert gas to “Shield” the molten weld pool and prevent it from contamination from Oxygen, Nitrogen and Water present in the atmosphere. Insufficient gas flow will not displace the atmosphere resulting in “porosity” or voids in the deposited weld. Flow is measured in CFH (Cubic Feet per Hour).

22 Insufficient Shielding Gas coverage
Gas not turned on Flow rate not properly adjusted Leaks in the hose supplying the shielding gas to the machine GMAW / MIG Gun loose at wire drive connection Spatter buildup on gas cup Windy environment

23 Excessive Gas coverage
Will cause porosity. The turbulence caused by the rapid flow of shielding gas exiting from the gas cup will draw the surrounding atmosphere into the stream of gas. It will reduce weld pool temperatures causing decreased penetration.


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