Differences

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--- tecnica:meccanica:vector_welding_mig_130 [2025/03/11 14:59] – [4.4 Voltage adjustment] niccolo
+++ tecnica:meccanica:vector_welding_mig_130 [2025/03/12 17:08] (current) – [Web references] niccolo
@@ Line 501: / Line 501: @@
 This is a reference table reported into the **Flameweld MTA1650** welding machine:
-{{ .:vector_welding:flameweld-mta1650-current-voltage-table.jpg?360|Flameweld MTA1650 current reference table}}
+{{ .:vector_welding:flameweld-mta1650-current-voltage-table.jpg?380|Flameweld MTA1650 current reference table}}
 ^  Flux-cored wire diameter  0.8 mm  ^^^
@@ Line 507: / Line 507: @@
 |  1 mm |   50 |    16.5 |
 |  2 mm |   70 |    17.5 |
+|  3 mm |   90 |    18.5 |
 |  4 mm |  110 |    19.5 |
+|  5 mm |  125 |    20.3 |
 |  6 mm |  140 |    21.0 |
 |  7 mm |  160 |  > 22.0 |
@@ Line 519: / Line 521: @@
 |  3.0 mm |  125 |
 |  4.0 mm |  140 |
-This table instead is a more comprehensive reference, considering steel thickness, wire diameter, ampere and voltage:
-^ Steel thickness  ^ Wire Diameter  ^ Amperage range  ^ Voltage  ^
-| 1.6 mm (1/16")  |  0.8 mm |   50-120A |  16-18V  |
-| 3.2 mm (1/8")   |  0.9 mm |  100-180A |  17-20V  |
-| 6.4 mm (1/4")   |  1.2 mm |  160-250A |  21-24V  |
-| 9.5 mm  (3/8")  |  1.2 mm |  200-275A |  23-26V  |
-| 12.7 mm (1/2")  |  1.6 mm |  250-350A |  25-28V  |
 ===== 4.4 Voltage adjustment =====
@@ Line 581: / Line 574: @@
 In summary, voltage adjustment in gas-less FCAW with flux-cored wire is pivotal in defining the arc length and stability, which in turn influences weld bead geometry, penetration, spatter levels, and slag formation. Understanding these interactions allows for better control over the welding process and ultimately a higher quality weld.
-===== 4.5 Example weld diagrams =====
+===== 4.5 Example weld diagrams and pictures =====
 The following image shows some examples of how welding parameters affect the result. Current (amps, often associated with wire feed speed), voltage, travel speed, contact-tip-to-work distance (CTWD or stick-out).
 {{.:vector_welding:example-weld-diagrams.png?direct&640|Example weld diagrams}}
+==== Current (ampere) faults ====
+{{.:vector_welding:current-faults-large.jpg?direct&276|Current faults}}
+{{.:vector_welding:current-faults-section-large.jpg?direct&462|Current faults (section)}}
+==== Voltage (arc lenght) faults ====
+{{.:vector_welding:arc-length-faults-large.jpg?direct&276|Voltage faults}}
+{{.:vector_welding:arc-length-faults-section-large.jpg?direct&462|Voltage faults (section)}}
+==== Travel speed faults ====
+{{.:vector_welding:speed-faults-large.jpg?direct&252|Travel speed faults}}
+{{.:vector_welding:speed-faults-section-large.jpg?direct&479|Travel speed faults (section)}}
 ===== 4.6 Consumables =====
   * **Wire spool size**: 16 x 100 mm diameter (inner x outer) x 44 mm.
+  * **Wire type**: The most common designations are **E71T-11** and **E71T-GS**. The //-11// is a wire for all positions and multi-pass welding while the //-GS// is a //general standard// usually suited for a single pass welding.
   * **Contact tip**: the tip has an M6 thread x 25 mm lenght. The torch consumables (tip and nozzle) should be compatible with the //Binzel standard// MIG torches **MB15**, also labeled as **AK15** by other manufacturers.
   * **Nozle**: 12 mm inner diameter, 52 mm lenght.
@@ Line 660: / Line 669: @@
   * **[[https://yeswelder.com/blogs/yeswelder/how-to-weld-a-comprehensive-guide-to-welding|How To Weld - A Comprehensive Guide To Welding]]**
   * **[[https://tooliom.com/blogs/tooliom/classification-of-flux-cored-arc-welding-fcaw-wires|Classification of Flux-Cored Arc Welding (FCAW) Wires]]**
+  * **[[https://www.mig-welding.co.uk/arc-welding-faults.htm|Arc Welding Faults]]**
+  * **[[https://welditmyself.com/e71t-11-vs-e71t-gs/|E71T-11 vs E71T-GS When you’re worried about making the wrong choice]]**