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Miller XMT400 CC/CV Welder

Miller XMT400 CC/CV Welder. Miller XMT400 CC/CV is the welder available in our welding LAB. Warning Label Definitions. 1 Electric shock from welding electrode or wiring can kill. 1.1 Wear dry insulating gloves.

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Miller XMT400 CC/CV Welder

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  1. Miller XMT400 CC/CV Welder

  2. Miller XMT400 CC/CV is the welder available in our welding LAB.

  3. Warning Label Definitions

  4. 1 Electric shock from welding electrode or wiring can kill. 1.1 Wear dry insulating gloves. Do not touch electrode with bare hand. Do not wear wet or damaged gloves. 1.2 Protect yourself from electric shock by insulating yourself from work and ground. 1.3 Disconnect input plug or power before working on machine. 2 Breathing welding fumes can be hazardous to your health.

  5. 2.1 Keep your head out of the fumes 2.2 Use forced ventilation or local exhaust to remove the fumes. 2.3 Use ventilating fan to removefumes. 3 Welding sparks can cause explosion or fire. 3.1 Keep flammables away from welding. Do not weld near flammables. 3.2 Welding sparks can cause fires. Have a fire extinguishernearby, and have a watchperson ready to use it. 3.3 Do not weld on drums or any closed containers. 2.1 Keep your head out of the fumes

  6. 4 Arc rays can burn eyes and injure skin. 4.1 Wear hat and safety glasses. Use ear protection and button shirt collar. Use welding helmet with correct shade of filter. Wear complete body protection. 5 Become trained and read the instructions before working on the machine or welding. 6 Do not remove or paint over (cover) the label.

  7. Symbols And Definitions

  8. Front Panel Controls

  9. 1 Power On/Off Switch . The fan motor is thermostatically controlled and only runs when cooling is needed. 2 Voltmeter (see Section 5-2) 3 Ammeter (see Section 5-2) 4 Voltage/Amperage Adjustment Control 5 Mode Switch

  10. 6 Voltage/Amperage Control Switch For front panel control, place switch in Panel position. 7 Inductance/Dig Control Control adjusts Dig when a Stick (SMAW) welding position is selected on mode switch.

  11. The difference between CC and CV • Both of CC and CV are available for the welder miller XMT 400 CC/CV. • CV stands for "constant voltage, while CC stands for "Constant Current.“ • CC MUST be used for SMAW"stick welding", and TIG welding. • CV MUST be used for MIG

  12. CV is essential to a stable arc with wire-feed type processes because with CV there is an inverse relationship between arc length and current. This helps stabilize the melt-off rate of the electrode wire. if the arc length gets too long, the current drops and the rate of melt-off of the wire is reduced, thus decreasing the arc gap. If the the arc length gets too short, the current climbs and the melt-off rate increases, thus opening up the gap. The result of CV is a relatively stable arc length.

  13. TIG Equipment • 1- Welding torch • 2- Power Supply • 3- Electrode • 4- Shielding gas

  14. 1) Welding torch • GTAW welding torches are designed for either automatic or manual operation and are equipped with cooling systems using air or water. The automatic and manual torches are similar in construction, but the manual torch has a handle while the automatic torch normally comes with a mounting rack.

  15. The internal metal parts of a torch are made of hard alloys of copper or brass in order to transmit current and heat effectively. The tungsten electrode must be held firmly in the center of the torch with an appropriately sized collet

  16. 2) Power supply • Gas tungsten arc welding uses a constant current power source (CC), meaning that the current (and thus the heat) remains relatively constant, even if the arc distance and voltage change. This is important because most applications of GTAW are manual or semiautomatic, requiring that an operator hold the torch. Maintaining a suitably steady arc distance is difficult if a constant voltage power source is used instead, since it can cause dramatic heat variations and make welding more difficult

  17. GTAW power supply

  18. 3) Electrode • The electrode used in GTAW is made of tungsten or a tungsten alloy, because tungsten has the highest melting temperature among pure metals, at 3,422 °C (6,192 °F). As a result, the electrode is not consumed during welding, though some erosion (called burn-off) can occur. Electrodes can have either a clean finish or a ground finish—clean finish electrodes have been chemically cleaned, while ground finish electrodes have been ground to a uniform size and have a polished surface, making them optimal for heat conduction. The diameter of the electrode can vary between 0.5 and 6.4 millimetres (0.02 and 0.25 in), and their length can range from 75 to 610 millimetres (3.0 to 24 in).

  19. 4) Shielding gas • As with other welding processes such as gas metal arc welding, shielding gases are necessary in GTAW to protect the welding area from atmospheric gases such as nitrogen and oxygen • The gas also transfers heat from the tungsten electrode to the metal, and it helps start and maintain a stable arc

  20. The selection of a shielding gas depends on several factors, including the type of material being welded, joint design, and desired final weld appearance. Argon is the most commonly used shielding gas for GTAW

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