SMAW (1). SAW (2). SAW strip (3). 26 . ESW strip (3). (1) Stick. COMPARISION BETWEEN ELECTROSLAG STRIP CLADDING & SUBMERGED ARC STRIP CLADDING NAME: PAREKH JAYESH M Branch. is thatESSC (Electroslag Strip Cladding). The research wants to exceed the actual limits ofESSC process, scanning the possible advantages introduced from .
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The process is often used when there is a need to use mild or low-alloy steel for the main structure with a specially alloyed material applied to a certain portion of the work piece to accommodate necessary properties. It is more cost effective to apply the layer only where needed, rather than fabricating the entire structure from the more expensive specially alloyed material.
Cladding offers a solution in these situations. There are many types of Cladding, but one of the most flexible is Weld Cladding.
All welding processes can be used for Cladding, but due to constraints in the physical requirements, some welding processes are better suited for Cladding than others. Strip Cladding processes are better suited for applications where a high deposition rate is desirable and where the part will accommodate this clacding rate of deposition.
Strip Cladding has been around for decades, and historically, Submerged Arc Strip Cladding SASC has been the most commonly used process, offering deposition rates of about 33 pounds per hour. However, technology advancements, especially related to consumables, have made the Electroslag Strip Cladding ESSC process a good alternative in some applications, such as oil and gas, pressure vessel and petrochemical — one that can save labor time and material costs and greatly increase the deposition rate.
With Submerged Arc Strip Cladding, an arc runs along the width of the strip, depositing weld metal on the base material. Because there is claddinh into the base material, dilution levels typically are about 20 percent with this method.
With Electroslag Strip Cladding, the strip is fed through a delivery system much like wire is fed during a typical wire welding process.
Electroslag Strip Cladding Offers Productivity and Cost Benefits
Since ESSC is not an arc process, heating takes place in the conductive flux, and the resulting heating effect melts the strip and base material into the liquid slag, which is then transferred into molten metal that is deposited onto the base material. The strip actually rides on top of the slag system created by the flux, protecting the weld.
Another difference between Submerged Arc Strip Cladding and Electroslag Strip Cladding is that the flux is delivered in front of the weld in ESSC, while in SASC, the flux is delivered at both the front and behind the weld, to shield the arc from atmospheric contamination. The flux for each process looks similar, but the ESSC flux is specifically formulated to work with that process. Electroslag Strip Cladding offers some advantages when compared to its SASC counterpart, including a reduced dilution rate of base material into the weld — typically about 10 percent for ESSC compared to 20 percent for SASC — along with greater deposition rates, improved travel speeds and lower flux consumption.
The heat input of the two processes are comparable. Because the dilution rate with ESSC is much less, the process can often be completed by applying one layer of material using a flux for standard travel speed — whereas two layers are typically required when using a high-speed ESSC flux.
That compares to the minimum of two passes needed to get the required overlay chemistry with Submerged Arc Strip Cladding. The need to deposit only one or two layers of eletroslag by using ESSC not only saves labor time and costs, but it also reduces the necessary strip material needed for the application, resulting in consumable savings.
High-quality electroslag strip cladding for alloy
The typical travel speed offered by the ESSC process is double that of Submerged Arc Strip Cladding — 10 inches or more per minute compared to 5 inches per minute. This is achieved mostly due to the higher deposition rate that is realized while still maintaining a similar layer thickness, so more metal is being deposited in the same amount of time. Electroslag Strip Cladding also offers greater deposition rates — about 55 pounds per hour, compared to the 33 pounds per hour typically offered with Submerged Arc Strip Cladding.
A higher deposition rate, elwctroslag with increased travel speed, reduces welding time and improves productivity for manufacturing and fabrication applications.
Another time-saving benefit offered by the ESSC process stems cladfing the electroslag refining that occurs when the molten metal passes through the slag bath. This results in cleaner weld metal with lower oxygen levels, which means less post-weld cleaning is necessary for some applications. This is typically done with a higher content of fluorides in the flux.
In consumable selection for ESSC, the strip width needed for the application is determined by the size and shape of the components to be surfaced. The strip electrodes are typically. Due to the magnetic field created by the high current, clarding molten flectroslag moves from the edge to the inside of the cladded plate. Using magnetic steering connected to the welding head can help control this effect.
Choosing equipment, accessories and consumables designed for Electroslag Strip Cladding can help manufacturers find success with the ESSC process. The Electroslag Strip Cladding process may require investing in more equipment than SASC, a factor that may make some companies hesitant to consider the process.
Cladding is typically a very continuous operation that requires high amperages and high duty cycles. However, the productivity and efficiency gains that result from the increased sgrip speeds and deposition rates, lower dilution rates claddding the use of less welding consumables mean the return on investment can be only a matter of weeks for some operations.
Electroslag Strip Cladding can double the travel speed, greatly increase deposition rates and reduce dilution rates for manufacturers and fabricators using an automated process. In combination with lowered usage of welding flux and strip, these productivity and efficiency benefits of Electroslag Strip Cladding can help companies save time and money, allowing them to be more competitive and profitable.
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You can manage your subscription s by signing into your account. Cladding is a fundamental process to the manufacturing and fabrication industries and is used across many applications, including petrochemical, oil and gas, pressure vessel and boiler making.
The process of cladding involves putting a new layer on top of an existing work piece — sometimes to repair items such as nozzles, ball valves, mill rolls and shafts — or to improve the wear stirp or corrosion properties of the piece.
Deposition cpadding of 55 pounds per hour Because the dilution rate with ESSC is much less, the process can often be completed by applying one layer of material using a flux for standard claddnig speed — whereas two layers are typically required when using stri high-speed ESSC flux. Electfoslag return on investment The Electroslag Strip Cladding process may require investing in more equipment than SASC, a factor that may make some companies hesitant to consider the process.
Fladding viable option that offers productivity gains Electroslag Strip Cladding can double the travel speed, greatly increase deposition rates and reduce dilution rates for manufacturers and fabricators using an automated process. Sign Up for Miller eNewsletters To activate your FREE subscription today, simply select which newsletter s you would like to receive and complete the form below.
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Electroslag cladding provides alternative to standard cladding techniques – The Fabricator
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