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Welding equipment advices

3 min read

Top welding handbook: how to become a more skilled welder and how to choose the top welding equipment. How do I choose what size Tig Welding Rod should I use for the job? For sheet metal up to 1/8” thick, don’t use a welding rod that is bigger than the thickness of metal you are welding…at least not much bigger. A good example…is using a 3/32 rod for welding .040 metal. That will just give you a fit. The amperage is low and the weld puddle needs to be small in order to prevent blowing a hole…and then when you dip the rod into the puddle, the rod is a big heat sink and sucks the heat right out of the puddle making it hard to maintain a consistent size bead. But Beginners should probably not be practicing on really thin metal. If you are a beginner you should be practicing on around 1/8 ” thick metal, and the bigger the rod, the easier it is to feed. For 1/8 ” metal, Use larger diameter rods (3/32” to 1/8”) So here is the rule….thin metal, use a thin rod Thick metal, use a thicker rod. This might seem like a no brainer, but I have answered a lot of questions like this about the rod melting before it gets to the puddle. If torch angle and arc length are right, its usually the rod size.

Tungsten size should be selected mainly according to amperage AND polarity: Tungsten size should be selected mainly according to amperage AND polarity and not always dependent upon metal thickness. When TIG welding aluminum, If your tungsten begins to ball up and quiver, this means your tungsten is getting near its capacity. This can be minimized by using the A/C balance dial and setting it for more penetration and less cleaning…or if you are using a TIG inverter like a miller dynasty, the a/c balance should probably be set to 65-70% EN. For transformer machines like the syncrowave, The a/c balance set to the cleaning side means more of the dcep side of the a/c wave which means more heat is on the tungsten tip = more wiggling. The more to the penetration side, the more the arc is on the negative side and the Less heat on tungsten tip and less cleaning action but the square wave usually provides enough cleaning anyway even in max penetration mode.

All welding requires the application of heat, which melts the metal being welded. With the TIG process, the heat comes from an electric arc that streams between the electrode in a hand-held torch and the metal being welded. The arc and molten metal are shielded by an inert gas, which protects the electrode and base metal from oxidizing. Filler rod is usually added to the puddle of molten metal as the weld progresses. The essence of making a good weld is heat control, which is governed by how you modulate the arc as it streams from the torch. Let’s look at this in detail.

Searching for the best Welding Supplies? We recommend Welding Supplies Direct & Associate company TWS Direct Ltd is an online distributor of a wide range of welding supplies, welding equipment and welding machines. We supply Plasma Cutters, MIG, TIG, ARC Welding Machines and support consumables to the UK, Ireland and Europe.

Always know what gas your wire requires — whether it’s 100 percent CO2 or argon, or a mix of the two. \While CO2 is considerably cheaper than argon and good for penetrating welds on steel, it also tends to run cooler, making it usable for thinner materials. Use a 75 percent argon/25 percent CO2 gas mix for even greater penetration and a cleaner weld, since it generates less spatter than straight CO2. Here are some suggestions for shielding gases for common types of wire: Solid Carbon Steel Wire: Solid carbon steel wire must be used with CO2 shielding gas or a 75 percent CO2/25 percent argon mix, which is best used indoors with no wind for auto body, manufacturing and fabrication applications. Aluminum Wire: Argon shielding gas must be used with aluminum wire, which is ideal for stronger welds and easier feeding. Stainless Steel Wire: Stainless steel wire works well with a tri-mix of helium, argon and CO2.

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