Soitaab Plasma Grate Cutting
SOITAAB HotWire Plasma Grate Cutting
Soitaab’s Plasma Grate Cutting System Cuts interrupted surfaces like steel or aluminum grating at high speeds, both efficiently and with high quality results. 5-10 times faster than oxy-fuel cutting No expensive rotating head No Pre-heating No loss of Plasma Arc No starts and stops on each bar to damage consumables Continuous cutting at high speeds Plasma Table Size - 1m up to 4m wide Up to 80mm grate depth and variable bar widths are no problem! www.soitaabusa.com
The Lineatech Pro with the Plasma Hotwire Grate Cutting System does not require a rotation axis. Offers faster cut speeds with less wire used during cutting. Versatility to cut Carbon Steel, Stainless Steel, or Aluminum on one machine. www.soitaabusa.com
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2 ½” Grate Cross Bars www.soitaabusa.com
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The Plasma NOVA with the Plasma Hotwire Grate Cutting System. Complete with Bevel cutting, pin stamp marking, and the TuboCut pipe cutting attachment. www.soitaabusa.com
HotWire Plasma Cutting The Patented application for cutting of conductive, non-conductive, combined and interrupted work-pieces. Based on indirect plasma cutting process, where work-piece is not part of the electric circuit. A welding wire is used as the anode and is continuously fed during cutting process; no work-piece connection is necessary. Parts are cut accurately and cleanly as they sit under the plasma torch ! www.soitaabusa.com
HotWire Plasma Cutting Suitable power sources: 360 Amp Plasma The standard applications for plasma cutting remain the same in addition to HotWire plasma cutting. By removing the wire feeder standard flat plate cutting is possible Retooling is easy and quick www.soitaabusa.com
HotWire - Advantages Insensitive to fluctuations of distance between plasma torch and work-piece Torch has capacitive height sensing No ground connection required Low wear of consumables due to low rate of re-ignition of the torch Almost no vibrations during the cutting process No break-off of plasma arc at low cutting speed Great cut quality similar to direct plasma cutting www.soitaabusa.com
Example 1: The OLD TECHNOLOGY Oxyfuel Grate Cutting Speed: 17 in/min Rapid Position Moves: Variable speed with length Total Cut time: 6 Minutes 12 Seconds www.soitaabusa.com
The NEW TECHNOLOGY Plasma Hot Wire Speed: 82 in/min Amperage 360 Total Cut time: 1 Minute 57 Seconds www.soitaabusa.com
The Plasma Hotwire Advantage !! Plasma Hotwire Cut Plasma Cost /hr.: Typical Labor Rate: Total Plasma /hr Part Cut Time: Total Plasma Cut Cost 10/hr 25/hr 35/hr. 1 min 57 sec 1.14 Oxyfuel Grate cut Oxyfuel Cost /hr.: Typical Labor Rate: Total Oxyfuel /hr Part Cut Time: Total Oxyfuel Cost 8/hr 25/hr 33/hr. 6 min 12 sec Total Cut Time Savings: Total Cut Cost Savings 4 min. 15sec. 2.27 3.41 www.soitaabusa.com
Example 2: The OLD TECHNOLOGY Hand Held Plasma Torch Cutting Round Discs Lay grate on floor Put round template over grate positioning to cross bars Cut-out using hand torch Clean-up edges Total Cut time: 2 hours 35 min www.soitaabusa.com
The Plasma Hotwire Advantage !! High Speed Plasma Cutting at 56” /min Excellent Edge Quality Little to No Clean-up Total Cut time: 2 min. 3 sec www.soitaabusa.com
The Plasma Hotwire Advantage !! Plasma Hotwire Cut Plasma Cost /hr.: Typical Labor Rate: Total Plasma /hr Part Cut Time: Total Plasma Cut Cost 10/hr 25/hr 35/hr. 2 min 03 sec 1.19 Hand Held Plasma Torch Plasma Cost /hr.: Typical Labor Rate: Total Hand Held Plasma /hr Part Cut Time: Total Hand held Plasma Cost 12/hr 25/hr 37/hr. 2 hrs 35 min 95.58 Total Cut Time Savings: 2 hrs. 32min. Total Cut Cost Savings: 94.39 www.soitaabusa.com
The Soitaab Plasma Hotwire Grate Cutting – click here www.soitaabusa.com
The Soitaab Plasma Grate Cutting System Click here www.soitaabusa.com
The Soitaab Plasma Grate Cutting System Cutting Round Discs – click here www.soitaabusa.com
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Soitaab owns one of the largest Steel Service Center in Italy. Riva Steel produces parts for our needs and sells parts to European Manufacturers. www.SoitaabUSA.com
Soitaab’s Rival Division is a complete machining and fabrication factory. They manufacture the massive frames for Soitaab Machines and the FRIGGI Band Saws. They also do machining work for other companies. www.SoitaabUSA.com
Soitaab has some of the largest machine tools made allowing them to machine enormous surfaces in a single setup and pass. www.SoitaabUSA.com
Soitaab’s Gold Medal Service and Support The components are from major manufacturers with a worldwide presence and available from anywhere. SOITAAB delivers a BOM with Soitaab and OEM part numbers. This ensures, easy availability of spare parts and guarantees a competitive price level. On-line diagnostics and tech support, to diagnose problems, even running the machine remotely. Phone support with knowledgeable installation and technical support staff Best in class training programs both remote and on-site customized to customer requirements The Highest machine reliability in the industry, CE Certified. www.soitaabusa.com
World Class technology coupled with Gold Medal Service and Support and a customer first philosophy sets Soitaab apart from the competition! From the simplest cutting table to the most complex one of a kind systems only Soitaab delivers the best solutions, affordably priced, and backed by the best training, service and parts inventory. www.soitaabusa.com
Welcome to Soitaab ! Thank You www.soitaabusa.com
The Plasma Hotwire Advantage !! www.soitaabusa.com Plasma Hotwire Cut Plasma Cost /hr.: 10/hr Typical Labor Rate: 25/hr Total Plasma /hr 35/hr. Part Cut Time: 1 min 57 sec Total Plasma Cut Cost 1.14 Oxyfuel Grate cut Oxyfuel Cost /hr.: 8/hr Typical Labor Rate: 25/hr Total Oxyfuel /hr 33/hr. Part Cut Time: 6 min 12 sec Total Oxyfuel .
2.0 Smoothcut Plasma Cutters 8 2.1 Fundamentals of Plasma Cutting 8 2.2 Process operation 9 3.0 Plasma cutting components 10 3.1 Plasma cutting power sources 10 3.2 Plasma cutting capacity 10 3.3 Plasma cutting torches 10 3.4 Air supply 11 3.5 Process comparisons 11 3.6 Earth cable assembly 11 4.0 Cutting Technique 12 4.1 Cutting 12
2.0 MagMate Cut25 Plasma 6 2.1 Fundamentals of Plasma Cutting 6 2.2 Process operation for transferred arc applications 7 3.0 Plasma cutting components 8 3.1 Plasma cutting power sources 8 3.2 Plasma cutting capacity 8 3.3 Plasma cutting torches (general) 8 3.4 Air supply 9 3.5 Process comparisons 9 3.6 Work return cable assembly 9
Hardox and Weldox are easily cut by the plasma cutting process. Plasma cutting has a limitation when it comes to material thickness and the main thickness to be cut is below 50 mm (plasma cutting machine dependent). Ge-nerally features for plasma cutting can be seen in table 4. Tabel 4. General features for plasma cutting. Figure 7 shows .
While "thermal cutting" would include plasma cutting, "oxyfuel cutting" would not. In many, and perhaps most cases, the use of the more restrictive term "oxyfuel cutting" was not selected to exclude plasma cutting but rather identified only the older technology that was in use before plasma cutting existed or became popular.
CNC PLASMA CUTTING MACHINE 3000X1500MM CUTTING TABLE MODEL: FLASHCUT/AC200 Plasma cutting machine with a 3000x1500mm cutting table TECHNICAL DATA: Power Voltage: 220V/380V, 50HZ Effective Cutting Width (mm): 1500 Rail width(mm) 1800 Effective Cutting Length (mm):
Principle of plasma cutting Plasma cutting is a thermal cutting process in which a plasma arc is constricted through a nozzle. The transferred arc, which occurs when electricity flows from the non-melting electrode (cathode) to the workpiece (anode), is used to cut electrically conductive materials. This is the most commonly used form of plasma .
Plasma Etching Page 2 OUTLINE Introduction Plasma Etching Metrics – Isotropic, Anisotropic, Selectivity, Aspect Ratio, Etch Bias Plasma and Wet Etch Summary The Plasma State - Plasma composition, DC & RF Plasma Plasma Etching Processes - The principle of plasma etching, Etching Si and SiO2 with CF4
of branched rough paths introduced in (J. Differential Equations 248 (2010) 693–721). We first show that branched rough paths can equivalently be defined as γ-Hölder continuous paths in some Lie group, akin to geometric rough paths. We then show that every branched rough path can be encoded in a geometric rough path. More precisely, for every branched rough path Xlying above apathX .
