Boxer SR-line Welding machine IGBT 350 MIG/MAG/MMA - 40-350A - incl.accessories
    Boxer SR-line Welding machine IGBT 350 MIG/MAG/MMA - 40-350A - incl.accessories
    Boxer SR-line Welding machine IGBT 350 MIG/MAG/MMA - 40-350A - incl.accessories
    Boxer SR-line Welding machine IGBT 350 MIG/MAG/MMA - 40-350A - incl.accessories
    Boxer SR-line Welding machine IGBT 350 MIG/MAG/MMA - 40-350A - incl.accessories
    Boxer SR-line Welding machine IGBT 350 MIG/MAG/MMA - 40-350A - incl.accessories
    Boxer SR-line Welding machine IGBT 350 MIG/MAG/MMA - 40-350A - incl.accessories
    Boxer SR-line Welding machine IGBT 350 MIG/MAG/MMA - 40-350A - incl.accessories
    Boxer SR-line Welding machine IGBT 350 MIG/MAG/MMA - 40-350A - incl.accessories
    Boxer SR-line Welding machine IGBT 350 MIG/MAG/MMA - 40-350A - incl.accessories
    Boxer SR-line Welding machine IGBT 350 MIG/MAG/MMA - 40-350A - incl.accessories
    Boxer SR-line Welding machine IGBT 350 MIG/MAG/MMA - 40-350A - incl.accessories
    Boxer SR-line Welding machine IGBT 350 MIG/MAG/MMA - 40-350A - incl.accessories
    Boxer SR-line Welding machine IGBT 350 MIG/MAG/MMA - 40-350A - incl.accessories

    Boxer SR-line Welding machine IGBT 350 MIG/MAG/MMA - 40-350A - incl.accessories

    SR-2008
    6011606077086

    Boxer SR-line Welding machine IGBT 350 MIG/MAG/MMA - 40-350A - incl.accessories

    Out-of-Stock
    €135.53

     

    This machine uses the following two welding methods

    1 and 2. MIG and MAG welding

    The difference between MIG and MAG welding
    The difference between MIG and MAG welding can already be deduced from the full names. MIG stands for Metal Inert Gas and MAG stands for Metal Active Gas. The only difference between these welding techniques is the type of shielding gas used.

    For example, in MIG welding, argon or mixtures of argon with hydrogen gas and helium are used as inert gas. MAG welding uses an active gas, such as carbon dioxide (CO₂). For example, an inert gas does not react with the molten bath, while an active gas does. The MIG welding technique is therefore used when no chemical reaction is desired.

    MIG/MAG welding
    So the only difference between MIG and MAG welding is shielding gas. The welding process is otherwise exactly the same. That is why MIG/MAG welding is designated as 1 technique. With MIG/MAG welding we use an electrode that melts slowly. A constant voltage is therefore present, unlike, for example, TIG welding where a constant current is used.

    With MIG/MAG welding, a wire is continuously mechanically fed during the welding process. This welding wire is fed by the welding torch and used by the welder to lay the weld. During welding, a plasma arc is created. The wire in this plasma arc serves as an electrode and melts, thereby also serving as an additive material.

    3. MMA welding

    MMA welding is a welding method in which the filler rod in the electrode holder serves as the welding electrode. The arc burns between the rod and the workpiece.

    The difference with other welding methods is that the filler rod that serves as the welding electrode in MMA welding becomes shorter and shorter during the welding process. With TIG and MIG/MAG welding, the length of the electrode remains constant. Therefore, the distance from the welding torch to the workpiece must always remain constant. In MMA welding, however, the electrode holder must always be moved towards the workpiece to keep the distance between the electrode and the weld pool constant. This is a special challenge in MMA welding.

    Specifications

    • Model : MIG/MMA - 350
    • Voltage : 230 V/ 50 Hz
    • Energy consumption : MIG/MAG : 10.35 kVA
    • Welding capabilities : MIG / MAG / MMA
    • Welding current range MIG / MAG : 40-350 A
    • Welding current duty cycle 100% : ( MIG/MAG - 271 A )
    • Welding current duty cycle 60% : (MIG/MAG - 350 A)
    • Supported wire diameter : 0.8 / 1.0 mm
    • Supported electrode diameter : 1.6 mm - 3.2 mm
    • Supported wire spools : maximum 1 kg
    • Outer diameter of the feed roller : 25 mm
    • Inner diameter of the feed roller : 9 mm
    • Thickness of the feed roller : 8 mm
    • Insulation class : F
    • Protection class : IP21S
    • Dimensions: 44 x 24 x 32 cm (L x W x H)
    • Weight : 7 KG
    1
    Met dit veelzijdige lasapparaat kunt u allerlei soorten plaatwerk, kokers en profielen lassen
    2
    Dit professionele lasapparaat maakt gebruik van krachtige en efficiënte IGBT inverter technologie
    3
    Hierdoor kunt u veel langer achter elkaar door lassen dan met een lasapparaat met een conventionele transformator
    4
    Bovendien is het apparaat door het gebruik van deze IGBT technologie veel compacter en lichter, waardoor hij gemakkelijk te vervoeren is en u hem gemakkelijk mee kunt nemen op elke lasklus
    5
    Overhittingsbeveiliging
    SR-2008
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