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8.01 Setting of the Power Source SECTION 8.0 BASIC MIG WELDING GUIDE The setting of the ARC MASTER 400 MST requires some practice by the operator, the welding Power Source/Wirefeeder having two control settings that have to balance. These are the Wirespeed control and the Voltage Control. The welding current is determined by the Wirespeed control, the current will increase with increased Wirespeed, resulting in a shorter arc. Less wire speed will reduce the current and lengthen the arc. Increasing the welding voltage hardly alters the welding current level, but lengthens the arc. By decreasing the voltage, a shorter arc is obtained with little change in welding current. When changing to a different electrode wire diameter, different control settings are required. A thinner electrode wire needs more Wirespeed to achieve the same current level. A satisfactory weld cannot be obtained if the wirespeed and voltage switch settings are not adjusted to suit the electrode wire diameter and dimensions of the workpiece. If the Wirespeed is too high for the welding voltage, “stubbing” will occur as the wire dips into the molten pool and does not melt. Welding in these conditions normally produces a poor weld due to lack of fusion. If, however, the welding voltage is too high, large drops will form on the end of the electrode wire, causing spatter. The correct setting of voltage and Wirespeed can be seen in the shape of the weld deposit and heard by a smooth regular arc sound. 8.02 Position of MIG Torch The angle of MIG torch to the weld has an effect on the width of the weld run. Figure 7. MIG Torch Angle 8.03 Distance from the MIG Torch Nozzle to the Work Piece The electrode stick out from the MIG Torch nozzle should be between ¼” to 3/8”. This distance may vary depending on the type of joint that is being welded. 36
8.04 Travel Speed Speed at which a weld travels influences the width of the weld and penetration of the welding run. 8.05 Electrode Wire Size Selection The choice of electrode wire size in conjunction with shielding gas used depends on: The position of welding Thickness of the metal to be welded The deposition rate required Capacity of the wire feed unit and power source The bead profile desired The amount of penetration required Type of joint Cost of the electrode wire Weld metal deposition rate is proportional to current density. Current density is defined as the current per cross sectional area of the electrode wire and is normally expressed as amps per mm 2 . An example is tabled below. Electrode Wire Size Current (Amps) Current Density (Amps/mm2 ) Deposition Rate (lb/hour) 0.035” (0.9mm) 200 380 6.3 0.034” (1.2mm) 200 177 6.0 8.06 Deposition Rate Comparison This demonstrates that where the upper limit of current is limited by machine capacity and duty cycle, higher deposition rates and therefore greater productivity will be achieved by using smaller electrode wire. The ARC MASTER 400 MST is a particularly efficient MIG welder with the 0.9mm steel wire in spray transfer mode. The savings from decreased welding time will more than cover the small cost penalty of the smaller electrode wire sizes. 0.035” wire cost approximately 10% Wire Penetration Comparison more than 0.045”, but is deposited approximately 15% faster. Higher current density (or smaller diameter wire) also gives deeper penetration as shown. 37
Page 1 and 2: 400 MST ARCMASTER ® Operating Manu
Page 3 and 4: WARNINGS Read and understand this e
Page 5: TABLE OF CONTENTS SECTION 7: BASIC
Page 8 and 9: ARCMASTER 400 MST 3. Use protective
Page 10 and 11: ARCMASTER 400 MST WARNING STEAM AND
Page 12 and 13: ARCMASTER 400 MST AVERTISSEMENT LE
Page 14 and 15: ARCMASTER 400 MST 1. Utilisez l’
Page 16 and 17: ARCMASTER 400 MST 10
Page 18 and 19: 2.01 How to Use This Manual This Ow
Page 20 and 21: 2.05 Functional Block Diagram Figur
Page 22 and 23: 3.04 Electrical Input Requirements
Page 24 and 25: 3.07 High Frequency Interference In
Page 26 and 27: 4.01 ARC MASTER 400 MST Controls 1
Page 28 and 29: 6. ON/OFF Switch This switch connec
Page 30 and 31: Parameter Description Selects in op
Page 32 and 33: Vertical up welding When welding ve
Page 34 and 35: 7 4 3 SECTION 5: SEQUENCE OF OPERAT
Page 36 and 37: 5.03 MIG Welding • Connect work l
Page 38 and 39: 6.04 Guide for Selecting Filler Wir
Page 40 and 41: SECTION 7: BASIC STICK WELDING GUID
Page 44 and 45: SECTION 9: ROUTINE MAINTENANCE The
Page 46 and 47: Inconsistent Wire Feed WARNING Dise
Page 48 and 49: 8 Arc does not have a crisp sound,
Page 50 and 51: Description Possible Cause Remedy 8
Page 56 and 57: 11.03 Switching VRD On/Off Switch t
Page 58 and 59: SECTION 12: POWER SOURCE ERROR CODE
Page 60: Description Possible Cause Remedy R
Page 63 and 64: UB2 UB4 TB7 TB21 TB8 CT1 CT2 TB16 T
Page 66 and 67: LIMITED WARRANTY AND SCHEDULE This
Page 68: World Headquarters Thermadyne Holdi

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