MIG Welding
1. Keep a 1/4 3/8 in stickout (electrode extending from the tip of the contact tube.)
2. For thin metals, use a smaller diameter wire. For thicker metal use a larger wire and a larger machine. See machine recommendations for welding capacity.
3. Use the correct wire type for the base metal being welded. Use stainless steel wires for stainless steel, aluminum wires for aluminum, and steel wires for steel.
4. Use the proper shielding gas. CO2 is good for penetrating welds on steel, but may be too hot for thin metal. Use 75% Argon/25% CO2 for thinner steels. Use only Argon for aluminum. You can use a triple-mix for stainless steels (Helium + Argon + CO2).
5. For steel, there are two common wire types. Use an AWS classification ER70S-3 for all purpose, economical welding. Use ER70S-6 wire when more deoxidizers are needed for welding on dirty or rusty steel.
6. For best control of your weld bead, keep the wire directed at the leading edge of the weld pool.
7. When welding out of position (vertical, horizontal, or overhead welding), keep the weld pool small for best weld bead control, and use the smallest wire diameter size you can.
8. Be sure to match your contact tube, gun liner, and drive rolls to the wire size you are using.
9. Clean the gun liner and drive rolls occasionally, and keep the gun nozzle clean of spatter. Replace the contact tip if blocked or feeding poorly.
10. Keep the gun straight as possible when welding, to avoid poor wire feeding.
11. Use both hands to steady the gun when you weld. Do this whenever possible. (This also applies to Stick and TIG welding, and plasma cutting.)
12. Keep wire feeder hub tension and drive roll pressure just tight enough to feed wire, but don¹t overtighten.
13. Keep wire in a clean, dry place when not welding, to avoid picking up contaminants that lead to poor welds.
14. Use DCEP (reverse polarity) on the power source.
15. A drag or pull gun technique will give you a bit more penetration and a narrower bead. A push gun technique will give you a bit less penetration, and a wider bead.
Aluminum MIG Welding
1. The best feeding of wire for aluminum is done with a spool gun. If you can't use a spool gun, use the shortest gun possible and keep the gun as straight as possible. Use Argon only for shielding gas. Only use a push gun technique when welding aluminum.
2. If you are having feeding problems, one thing you can try is a contact tip that is one size bigger than your wire.
3. The most common wire type is ER4043 for all-purpose work. ER5356 is a stiffer wire (easier to feed), and is used when more rigid, higher-strength weld properties are needed.
4. Clean the aluminum before welding, to remove the oxide layer. Use a stainless steel wire brush used only for cleaning aluminum.
5. Fill the crater at the end of the weld to avoid a crack. One way to do this is to dwell in the weld pool for a second at the end of the weld.
Self-Shielded Flux Cored Welding
1. Use a drag (pull) gun technique.
2. Keep the wire clean and dry for best weld results.
3. The weld is similar to Stick welding, in that a layer of slag must be removed from the weld after welding. Use a chipping hammer and a wire brush.
4. Self-shielded Flux Cored does not need shielding from an external cylinder of shielding gas. (The shielding is in the wire.) This makes it good for outside work, where external shielding gas could be blown away.
5. Self-shielded Flux Cored is generally harder to accomplish on thin metals than MIG welding.
TIG Welding
1. Good process for thin metal ‹ very clean process producing good looking welds.
2. Use Argon shielding for steel, stainless, and aluminum.
3. Use DC-Straight Polarity (DCEN) for steel and stainless. Use AC for aluminum.
4. Always use a push technique with the TIG torch.
5. Match the tungsten electrode size with the collet size.
6. Aluminum ‹ use a pure tungsten, AWS Class EWP (green identifying band). Will form a balled-end in AC.
7. Steel and stainless steel ‹ use a 2% thoriated tungsten, AWS Class EWTH-2 (red identifying band). Prepare a pointed-end for DCEN welding.
Stick Welding
1. Use a drag technique for most applications.
2. Take precautions with flying materials when chipping slag.
3. Keep electrodes clean and dry ‹ follow manufacturer¹s recommendations.
4. Common steel electrodes:
5. Penetration: DCEN ‹ Least penetration, AC ‹ medium (can be more spatter also), DCEP ‹ most penetration.
Plasma Cutting
1. Clean, dry, oil-free air is important.
2. Stay at recommended air pressure (more air is not necessarily better!)
3. Touch torch tip gently to workpiece.
4. When initiating a cut, start on the end of material to be cut and ensure arc has completely penetrated metal before proceeding further.
5. When completing cut, pause at the end to assure severance.
6. Torch should be perpendicular to workpiece.
7. Work cable should be attached as close to workpiece cut as possible.
8. If you can see the arc coming through the bottom of the cut metal, it will eliminate guessing if your travel speed is correct.
Resistance Welding
1. Resistance welding is not recommended for aluminum, copper, or copper alloys. Use for steel and stainless steel only.
2. For more heat (amperage output), use shorter tongs.
3. For units without a heat control, tong length can be used for a control. For instance, for thin metals where you want less heat, longer tongs can be used.
4. Keep in mind that longer tongs can bend, and you may lose pressure at the weld.
5. For the metals being welded, make sure there is no gap between the pieces ‹ this will weaken the weld.
6. Keep the alignment of the tongs straight, so that the tips touch each other exactly. Also, maintain a proper pressure adjustment ‹ not too much or too little pressure.
7. When you need one side of the weld to have good appearance, you can flatten (machine) the tip somewhat on that side.
8. Clean the tips on a regular basis, or you will lose output (amperage). Dress the tips with a proper tip dresser.
from: Hobart Welders and Miller Electric
THE DUTIES OF WELDING INSPECTOR:-
ReplyDeleteThe main duty of a welding inspector is to ensure that all welding and associated actions are carried out in accordance with the specifications relevant to the contract or work being carried out.
Duties Prior to Welding:-
Welding inspector has to obtain all relevant documentation example:-specifications,procedures,drawing,etc.The inspector must check all welders certificates and qualifications.The materials and consumables to be used should be checked to ensure correct type,condition,size i.e flux and gases.The equipments to be used for welding be in good condition valid calibration certificates.
Before welding,inspector should check the correct preheat temperature are applied using temperature indicating crayon or digital thermometer.Inspector should check for joint assembly i.e root face(before fit-up) bevel angle,foot gap,alignment,seam offset where applicable,joint cleanliness and to ensure that no undue stress is applied to the joint.
Duties During Welding:-
The inspector must check the amperage,voltage,polarity and correct run sequence been applied.Inspector must check ensure adequate cleaning between passes and correct inter pass temperature.Inspector should check root internally(pipes) where access permits and back gouged such as amount gouged,shape of gouge,cleanliness of gouge where applicable.
Duties After Welding:-
The inspector should carry out visual inspection on the finished weld according to the relevant acceptance criteria of weld for defects,e.g undercut,overlap,surface porosity,incompletely filled groove,arc strikes etc.Inspector must check weld contour and weld width.The inspector must also ensure certain joints are covered with heat resistant material to retard cooling rate where applicable.
If post weld heat treatment are required,inspector should monitor and ensure it is carried out according to approved procedure.
During Repair:-
If repair occur the inspector needs to refer to repair procedure.The inspector should mark out area positively and clearly,use a method established and understood by all inspection and repair personnel.Inspector must monitor when partially or fully defect had been removed and re-welding.Only then,inspector would do inspection and request for any necessary NDT.
Lastly,the inspector should maintain all the records and prepare final reports on weld as per requirements which would be submitted to the QA dept or client.
Thanks nutshell. Well said!!!
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