Arc Welding

  1. Plasma arc welding and its applications

    The process of plasma arc welding is quite popular with the commercial welders. In fact, as every good commercial welder knows, the plasma arc welding has a wide range of applications. The process of plasma arc welding can slowly start an arc to some small components and to the tip of wires and proceed with making welds that are repeatable and come with short periods of welding. Commercial welders confirm that this is quite to the advantage when the welding components are wires, needles, probes, thermocouples, light bulb filaments, as well as surgical instruments.

    When the commercial welder has to work with electronic components or with various medical instruments that are hermetically sealed or are sealed through welding, then the plasma process gives them the chance to weld close to the delicate seals, to reduce the heat input and to start the arc without the high frequency electrical noise as it could damage the internal parts of the electrical device.

    In general,

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  2. The benefits of the plasma arc welding

    As commercial welders say, there are many benefits and features associated with the plasma arc welding. Operating with Plasma Cutter Consumables and Plasma Cutters For Sale, as well as with Plasma Cutting Equipment, the plasma arc welding features a protected electrode and this allows for a lower level of electrode contamination.

    This is very advantageous in terms of welding materials that out gas as they weld and contaminate the GTAW electrode that is not protected. Thanks to the arc shape and the even heat distribution, the plasma arc welding forgives the changes in the arc length. This brings arc standoff distances which however are not critical as in the GTAW process. The plasma arc welding provides good welding consistency.

    The transfer of arc in the plasma arc welding process is gentle and is consistent. It provides for welding of fine wire and thin sheet, as well as for miniature components which with the GTAW arc is not applicable as it will damage the part that

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  3. Types Of Welding Processes

    There are several types of arc welding processes, but the one that is most common is the shielded metal arc welding. This type of welding process is also known as stick welder or manual metal arc welding. During this welding process the electric current strikes an arc connecting the consumable electrode rod with the base material. The filler material (the electrode core) is usually steel and it is covered with a flux which keeps the weld area from contamination and oxidation as it produces the gas carbon dioxide during the welding process.

    This welding process is not expensive and can be used in field work. With some training the welder person can become master. The materials that could be used with that type of welding include ferrous materials, but also nickel and cast iron, copper and aluminum.

    The gas metal arc welding or the metal inert gas is a process that is semiautomatic or automatic, with a great welding speed. As electrode it uses continuous

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  4. Welding Rods and Their Classification

    TIG welders, Arc welders, MIG welders, and Stick welders who work with wires, know that when the wire is cut and is straightened, it is called a welding rod. That is a form of filler metal or filler wire which is used by the multiprocess welders in the process of brazing or welding that does not conduct the electrical current.

    As the Arc welders, TIG welders, Stick welders, and MIG welders are aware, when the wire is used in the electrical circuit, it is called a welded electrode and it is defined as part of the welding circuit and actually through the welding electrode is conducted the welding current. Usually the electrode is a welding wire, yet it can come in other forms as well.

    The multiprocess welders know of several systems that are applied for the classification of a certain welding wire, rod or electrode. In all those cases is used a prefix letter which indicates something. So, here it is how the welding wire classification goes: when the prefix is R it indicates

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  5. Repair Welding and Surface Welding, part 1

    Many commercial welders today are employed in the process of maintenance and repair welding rather than in any other sphere of the welding industry. In other words there is a serious need of multiprocess welders who can perform various repair services and maintenance jobs. In fact, it should be mentioned here that the earliest usage of the welding processes was to repair different items.

    As arc welders know, the success of a repair depends on the preparation that is done before the actual doing of the work. The good stick welder takes all the factors into consideration before starting the welding process.

    In general, the multiprocess welder makes a detailed analysis, checking the repairs made and the service life of the part that is repaired. The stick welders can use this detailed method to analyze the welding job that has to be done. The four main points that the multiprocess welder has to take into consideration include:

    - Making a very detailed examination

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  6. Welding of different types of steels, part 3

    Multiprocess welders who are to perform welding on low-manganese steels are aware that these steels are of the AISI type 1320, 1330, 1335, 1340, and 1345 designations. These steels come with carbon that is in the range of 0.18-0.48%, silicon that is in the range from 0.20-0.35%, and manganese that is in the range of 1.60-1.90%.

    With this type of steels the commercial welder does not require usage of reheating when the carbon and manganese are of the low range. When the carbon is around 0.25% then the commercial welder needs to preheat the steel to 120-150oC. After the welding is required post-heat treatment.

    When the arc welders are performing welding processes on low-alloy chromium steels, they know that these steels are of the AISI type 5015 to 5160 and electric furnace steels of 50100, 51100, and 52100. Here, in these steels the stick welder can expect manganese levels from 0.30-1.00%, carbon ranges from 0.12-1.10%, silicon levels from 0.20-0.30% and chromium levels

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  7. High-Strength Steels Welding: Medium-alloy harden steels

    Arc welders, MIG welders, TIG welders, and Stick welders have to perform different welds with high-strength steels in their professional life. In the second part of this theme we will cover the welding of medium-alloy harden steels. Multiprocess welders know that these steels are used mainly in the aircraft industry to secure the formation of structural applications that are of ultra-high-strength.

    The commercial welders are aware that these welds have low to medium carbon levels and good fracture toughness. Further to that, these steels are hardened with air, which reduces the distortion with quenching methods. The steels that belong to this group are called hot work die steels and one of them has been also named 5Cr-Mo-V aircraft quality steel. MIG welders, Arc welders, Stick welders, and TIG welders know that these steels are available in the bars and sheets, in the plates and strip, as well as in the forging billets.

    Among the medium-alloy harden steels also belong

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  8. Cleaning Tools for Shielded Metal Arc Welding and Flux Core Arc Welding

    Shielded Metal Arc Welding and Flux Core Arc Welding create a couple of challenges that don't exist with Gas Metal Arc Welding and Gas Tungsten Arc Welding. First Shielded Metal Arc Welding and Flux Core Arc Welding have smoke and slag as their form of shielding so this leaves a residue on the metal around the weld.

    Secondly there are sparks generated in both of these processes that are nonexistent in Gas Tungsten Arc Welding and significantly less than in Gas Metal Arc Welding. Finally, both of the Shielded Metal Arc Welding and Flux Core Arc Welding processes have a heavy slag coating on the surface of the weld that must be chipped off and removed. These three issues create challenges for fabricators to finish their product after welding and before the product gets painted, plated, powder coated, or otherwise.

    As for the smoke residue, we can either mechanically remove it using a handheld brush, or if we have larger quantities, can mechanize the brush with a die grinder powered by air or a rotary electrical device such as a grinder, or drill motor. For carbon steel weldments, a carbon steel brush works

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  9. Arc Pulsing

    Part of the welding process, the arc pulsing, as commercial welders know, includes usage of welding power supply which changes the weld current in a fast pace – from low one known as background current to high one known as peak current. The arc pulsating can create several spot welds that are overlapping. By using this technique, the commercial welder can reduce the overall heat input to the base material and can increase the weld speed.

    As a rule, the arc pulsing offers many benefits to the welding procedure as it improves the weld repeatability and quality. Sometimes the weld and the materials joint not so well and cannot be welded properly with an arc that is not pulsed, but can be welded very easily with a pulsed arc technique. In such cases the commercial welders that use pulsed arc technique get a weld of great quality and of excellent output.

    The arc pulsing includes four welding parameters, these being the background current, the peak current, the pulse frequency a

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  10. The Flux-Cored Arc Welding and its aspects

    One of the first things that the commercial welders learn when flux core arc welding is concerned is that this is an automatic or semi-automatic process of arc welding. During that process, the commercial welder uses the so called tubular electrode, which is based on a flux rather than on a solid electrode.
    It is this flux core electrode being used that makes the process of fluxed-cored arc weld the right choice in many cases and for numerous of today’s commercial welding requirements.

    As it is often discussed at the Arc Welding Forum, the commercial welders are using two types of flux core arc welding. The first type requires an external supply for shielding gas, while the other one requests self-shielding, where the shielding gas comes from a tubular electrode that is continuously-fed.

    The electrode does contain flux and it also contains other ingredients which generate a shielding gas, as the electrode is in contact with the heat of the commercial welder. T

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