Prosaic Steel and Alloys has been providing cutting solutions with CNC Plasma Stainless Steel Profile Cutting Services technology since the company started trading. Over this time we have developed exceptional skills and expertise in cutting materials and this has contributed to the success and growth of the business in the field of Plasma Stainless Steel Profile Cutting Services, CNC Plasma Stainless Steel Profile Cutting Services, Stainless Steel Profile Cutting India
At Prosaic Steel , we strive to understand customer requirements in detail and then suggest the most suitable CNC plasma cutting services to them. The team having nearly two decades of experience recommends the appropriate CNC plasma cutting job works to the clients making their desired activities faster and easier.
Gaurav ispat is the leading Indian company offering excellent CNC Stainless Steel Profile Cutting Services takes pride in the careful analysis of clients needs and advising the right CNC plasma cutting services to them. Our team of skilled technicians leaves no stone unturned to understand your preferences and unique requirements for CNC plasma cutting job works and then offer faster and the most convenient CNC profile cutting services.
Having the experience of working with diverse clients located at various industrial sectors of India, we have gained a huge clientele who has become our loyal customer base especially for CNC plasma cutting services. Our commitment doesnt stop at mere offering CNC Plasma Stainless Steel Profile Cutting Job Works, but we would be there to offer assistance and technical support through our maintenance activities also.
Flexibility plays a vital role in CNC profile cutting services; the infrastructural support and coherent capability allow us to offer the maximum of it. This high customization ability enables cost-effectiveness coupled with convenience for the clients resulting in complete customer satisfaction.
Plasma cutting steel is very favourable with many clients. Our CNC Plasma Stainless Steel Profile cutting services are able to cut 12000mm x 3000mm x 300mm Thk. Gaurav ispat use CNC controlled Plasma cutting facilities and is supported by the C.A.D. department that controls the cutting service.
Our experience in this field allows us to deliver real benefits, such as the quality of the cut which reduces customer lead times. Our plasma cutting facility can cut up to 300mm thickness in a wide range of materials allowing this technology to substitute traditional cutting methods.
Our Plasma bed can handle sheet and plate sizes up to 12000mm x 3000mm x 300mm in any required profile. Additional services such as the creation of apertures are also included in our reliable service.
Sr. No. |
Size (in mm) | Thickness | Specification | Manufacturer |
1 | 1000 x 2000 1220 x 2440 (4' x 8') 1250 x 2500 1500 x 3000 To 6000 2000 x 4000 To 6000 |
0.3 mm to 120 mm |
A-240 | Jindal, Acroni, Columbus, Acerinox, Thysenkrupp, Posco, Aperam, BRG etc. |
Sr. No. |
Size (in mm) | Thickness | Specification | Manufacturer |
1 | 1000 x 2000 1220 x 2440 (4' x 8') 1250 x 2500 1500 x 3000 To 6000 2000 x 4000 To 6000 |
0.3 mm to 120 mm |
A-240 | Jindal, Acroni, Columbus, Acerinox, Thysenkrupp, Posco, Aperam, BRG etc. |
Cutting Action Type | CNC High Definition |
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Equipment | ESAB MAKE Dual Head Beveling System (Straight and Contour) Double and Single Bevel Capacity |
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Current | 400 A | ||
Cutting Axis | 4-Axis | ||
Intended Cutting Material |
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Cutting Thickness | Up to 300 mm | ||
Cutting Length | Up to 12000 mm | ||
Cutting Width | Up to 3500 mm | ||
Tolerances | Tightest in Industry | ||
Inspection | First Article In-Process Final |
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Production Volume | Prototype to Production | ||
Typical Lead Time | 1 to 2 weeks |
Industry Focus |
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Intended Application |
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Industry Standards | ISO 9001:2008 Certified AWS-D1.1 Certified |
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File Formats | AutoCAD Inventor DWG |
Plasma cutting is a process that is used to cut steel and other metals of different thicknesses (or sometimes other materials) using a plasma torch. In this process, a gas (oxygen, air, inert and others dependant on material) is blown at high speed out of a nozzle; at the same time an electrical arc is formed through that gas from the nozzle to the surface being cut, turning some of that gas to plasma. The plasma is hot enough to melt the metal being cut and moves fast enough to blow molten metal away from the cut.
In modern CNC Plasma Cutting systems, end-to-end component design is highly automated using computer-aided design (CAD) and computer-aided manufacturing (CAM) programs. The programs produce a computer file that is interpreted to extract the commands needed to operate a particular machine via a post processor, and then loaded into the CNC machines for production. Since any particular component might require the use of a number of different tools drills, saws, etc., modern machines often combine multiple tools into a single "cell”. In other installations, a number of different machines are used with an external controller and human or robotic operators that move the component from machine to machine. In either case, the series of steps needed to produce any part is highly automated and produces a part that closely matches the original CAD design.
What is Stainless Steel ?
Stainless steel plate is often referred to as "corrosion-resistant steel” – it does not stain, corrode or rust as easily as normal carbon steel. It would however be misleading to say it is corrosion-proof. It differs significantly from standard carbon steel due to the amount of chromium present, which limits surface corrosion unlike carbon steel which will rust when exposed to air and any moisture in the atmosphere. Due to its anti-oxidation qualities, stainless steel is often a popular solution.
Where low maintenance and corrosion resistance is required, stainless steel plates are a natural choice and are used in a diverse range of applications from modern architecture for cladding or fascias, to the food hygiene industry due to its anti-bacterial qualities. Prosaic Steel supplies stainless steel in a wide variety of grades and aesthetic finishes. There are many options available – for example adding carbon during the forming process will make the stainless steel more durable and stronger too.
Example Industrial Uses:
High oxidation-resistance in air at ambient temperature is normally achieved with additions of a minimum of 13% (by weight) chromium, and up to 26% is used for harsh environments.[10] The chromium forms a passivation layer of chromium(III) oxide (Cr2O3) when exposed to oxygen. The layer is too thin to be visible, and the metal remains lustrous. The layer is impervious to water and air, protecting the metal beneath. Also, this layer quickly reforms when the surface is scratched. This phenomenon is called passivation and is seen in other metals, such as aluminium and titanium. corrosion-resistance can be adversely affected if the component is used in a non-oxygenated environment, a typical example being underwater keel bolts buried in timber.
When stainless steel parts such as nuts and bolts are forced together, the oxide layer can be scraped off, causing the parts to weld together. When disassembled, the welded material may be torn and pitted, an effect known as galling. This destructive galling can be best avoided by the use of dissimilar materials for the parts forced together, for example bronze and stainless steel, or even different types of stainless steels (martensitic against austenitic), when metal-to-metal wear is a concern. Nitronic alloys reduce the tendency to gall through selective alloying with manganese and nitrogen. In addition, threaded joints may be lubricated to prevent galling.
Stainless Steel Applications
Stainless steel€™s resistance to corrosion and staining, low maintenance, relatively low cost, and familiar lustre make it an ideal material for many applications. There are over 150 grades of stainless steel, of which fifteen are most commonly used. The alloy is milled into coils, sheets, plates, bars, wire, and tubing to be used in cookware, cutlery, hardware, surgical instruments, major appliances, industrial equipment (for example, in sugar refineries) and as an automotive and aerospace structural alloy and construction material in large buildings. Storage tanks and tankers used to transport orange juice and other food are often made of stainless steel, due to its corrosion resistance and antibacterial properties. This also influences its use in commercial kitchens and food processing plants, as it can be steam-cleaned and sterilized and does not need paint or other surface finishes.
Stainless steel is used for jewellery and watches with 316L being the type commonly used for such applications. It can be re-finished by any jeweler and will not oxidize or turn black.
Some automotive manufacturers use stainless steel as decorative highlights in their vehicles.
Stainless Steel Recycling and reuse
Stainless steel is 100% recyclable. An average stainless steel object is composed of about 60% recycled material of which approximately 40% originates from end-of-life products and about 60% comes from manufacturing processes.[14]
There is a secondary market that recycles usable scrap for many stainless steel markets. The product is mostly coil, sheet and blanks. This material is purchased at a less-than-prime price and sold to commercial quality stampers and sheet metal houses. The material may have scratches, pits and dents but is made to the current specifications.
Pipes and fittings made of stainless steel.
There are different types of stainless steels: when nickel is added, for instance, the austenite structure of iron is stabilized. This crystal structure makes such steels virtually non-magnetic and less brittle at low temperatures. For greater hardness and strength, more carbon is added. With proper heat treatment, these steels are used for such things as razor blades, cutlery, and tools.
Significant quantities of manganese have been used in many stainless steel compositions. Manganese preserves an austenitic structure in the steel as does nickel, but at a lower cost.
Stainless steels are also classified by their crystalline structure:
Austenitic, or 300 series, stainless steels make up over 70% of total stainless steel production. They contain a maximum of 0.15% carbon, a minimum of 16% chromium and sufficient nickel and/or manganese to retain an austenitic structure at all temperatures from the cryogenic region to the melting point of the alloy. A typical composition of 18% chromium and 10% nickel, commonly known as 18/10 stainless, is often used in flatware. 18/0 and 18/8 are also available. Superaustenitic stainless steels, such as alloy AL-6XN and 254SMO, exhibit great resistance to chloride pitting and crevice corrosion due to high molybdenum content (>6%) and nitrogen additions, and the higher nickel content ensures better resistance to stress-corrosion cracking versus the 300 series. The higher alloy content of superaustenitic steels makes them more expensive. Other steels can offer similar performance at lower cost and are preferred in certain applications.[citation needed] Low-carbon versions, for example 316L or 304L, are used to avoid corrosion problems caused by welding. Grade 316LVM is preferred where biocompatibility is required (such as body implants and piercings).[15] The "L” means that the carbon content of the alloy is below 0.03%, which reduces the sensitization effect (precipitation of chromium carbides at grain boundaries) caused by the high temperatures involved in welding.
Ferritic stainless steels generally have better engineering properties than austenitic grades, but have reduced corrosion resistance, due to the lower chromium and nickel content. They are also usually less expensive. They contain between 10.5% and 27% chromium and very little nickel, if any, but some types can contain lead. Most compositions include molybdenum; some, aluminium or titanium. Common ferritic grades include 18Cr-2Mo, 26Cr-1Mo, 29Cr-4Mo, and 29Cr-4Mo-2Ni. These alloys can be degraded by the presence of σ chromium, an intermetallic phase which can precipitate upon welding.
Martensitic stainless steels are not as corrosion-resistant as the other two classes but are extremely strong and tough, as well as highly machinable, and can be hardened by heat treatment. Martensitic stainless steel contains chromium (12 – 14%), molybdenum (0.2 – 1%), nickel (less than 2%), and carbon (about 0.1 – 1%) (giving it more hardness but making the material a bit more brittle). It is quenched and magnetic.
Precipitation-hardening martensitic stainless steels have corrosion resistance comparable to austenitic varieties, but can be precipitation hardened to even higher strengths than the other martensitic grades. The most common, 17-4PH, uses about 17% chromium and 4% nickel. The Lockheed-Martin Joint Strike Fighter is the first aircraft to use a precipitation-hardenable stainless steel – Carpenter Custom 465 – in its airframe.
Duplex stainless steels have a mixed microstructure of austenite and ferrite, the aim usually being to produce a 50/50 mix, although in commercial alloys the ratio may be 40/60. Duplex stainless steels have roughly twice the strength compared to austenitic stainless steels and also improved resistance to localized corrosion, particularly pitting, crevice corrosion and stress corrosion cracking. They are characterized by high chromium (19 – 32%) and molybdenum (up to 5%) and lower nickel contents than austenitic stainless steels. Duplex grades are characterized into groups based on their alloy content and corrosion resistance. Lean duplex refers to grades such as UNS S32101 (LDX 2101), S32304, and S32003. The standard duplex is 22% chromium with UNS S31803/S32205 known as 2205 being the most widely used. Super duplex is by definition a duplex stainless steel with a pitting corrosion equivalent (PRE) > 40, where PRE = %Cr + 3.3x(%Mo + 0.5x%W) + 16x%N. Usually super duplex grades have 25% chromium or more and some common examples are S32760 (Zeron 100), S32750 (2507) and S32550 (Ferralium), although not all Ferralium grades are super duplex grades. Hyper duplex refers to duplex grades with a PRE > 48 and at the moment only UNS S32707 and S33207 are available on the market. The properties of duplex stainless steels are achieved with an overall lower alloy content than similar-performing super-austenitic grades, making their use cost-effective for many applications.
EN-standardSteel no. k.h.s DIN | EN-standardSteel name | SAE grade | UNS |
440A | S44002 | ||
1.4112 | 440B | S44003 | |
1.4125 | 440C | S44004 | |
440F | S44020 | ||
1.4016 | X6Cr17 | 430 | S43000 |
1.4408 | G-X 6 CrNiMo 18-10 | 316 | |
1.4512 | X6CrTi12 | 409 | S40900 |
410 | S41000 | ||
1.4310 | X10CrNi18-8 | 301 | S30100 |
1.4318 | X2CrNiN18-7 | 301LN | N/A |
1.4307 | X2CrNi18-9 | 304L | S30403 |
1.4306 | X2CrNi19-11 | 304L | S30403 |
1.4311 | X2CrNiN18-10 | 304LN | S30453 |
1.4301 | X5CrNi18-10 | 304 | S30400 |
1.4948 | X6CrNi18-11 | 304H | S30409 |
1.4303 | X5CrNi18-12 | 305 | S30500 |
X5CrNi30-9 | 312 | ||
1.4541 | X6CrNiTi18-10 | 321 | S32100 |
1.4878 | X12CrNiTi18-9 | 321H | S32109 |
1.4404 | X2CrNiMo17-12-2 | 316L | S31603 |
1.4401 | X5CrNiMo17-12-2 | 316 | S31600 |
1.4406 | X2CrNiMoN17-12-2 | 316LN | S31653 |
1.4432 | X2CrNiMo17-12-3 | 316L | S31603 |
1.4435 | X2CrNiMo18-14-3 | 316L | S31603 |
1.4436 | X3CrNiMo17-13-3 | 316 | S31600 |
1.4571 | X6CrNiMoTi17-12-2 | 316Ti | S31635 |
1.4429 | X2CrNiMoN17-13-3 | 316LN | S31653 |
1.4438 | X2CrNiMo18-15-4 | 317L | S31703 |
1.4539 | X1NiCrMoCu25-20-5 | 904L | N08904 |
1.4547 | X1CrNiMoCuN20-18-7 | SMO/6MO | S3125 |
EN-standardSteel no. k.h.s DIN | EN-standardSteel name | SAE grade | UNS |
440A | S44002 | ||
1.4112 | 440B | S44003 | |
1.4125 | 440C | S44004 | |
440F | S44020 | ||
1.4016 | X6Cr17 | 430 | S43000 |
1.4408 | G-X 6 CrNiMo 18-10 | 316 | |
1.4512 | X6CrTi12 | 409 | S40900 |
410 | S41000 | ||
1.4310 | X10CrNi18-8 | 301 | S30100 |
1.4318 | X2CrNiN18-7 | 301LN | N/A |
1.4307 | X2CrNi18-9 | 304L | S30403 |
1.4306 | X2CrNi19-11 | 304L | S30403 |
1.4311 | X2CrNiN18-10 | 304LN | S30453 |
1.4301 | X5CrNi18-10 | 304 | S30400 |
1.4948 | X6CrNi18-11 | 304H | S30409 |
1.4303 | X5CrNi18-12 | 305 | S30500 |
X5CrNi30-9 | 312 | ||
1.4541 | X6CrNiTi18-10 | 321 | S32100 |
1.4878 | X12CrNiTi18-9 | 321H | S32109 |
1.4404 | X2CrNiMo17-12-2 | 316L | S31603 |
1.4401 | X5CrNiMo17-12-2 | 316 | S31600 |
1.4406 | X2CrNiMoN17-12-2 | 316LN | S31653 |
1.4432 | X2CrNiMo17-12-3 | 316L | S31603 |
1.4435 | X2CrNiMo18-14-3 | 316L | S31603 |
1.4436 | X3CrNiMo17-13-3 | 316 | S31600 |
1.4571 | X6CrNiMoTi17-12-2 | 316Ti | S31635 |
1.4429 | X2CrNiMoN17-13-3 | 316LN | S31653 |
1.4438 | X2CrNiMo18-15-4 | 317L | S31703 |
1.4539 | X1NiCrMoCu25-20-5 | 904L | N08904 |
1.4547 | X1CrNiMoCuN20-18-7 | SMO/6MO | S3125 |
Stainless Steel Profile Cutting and Sheets is sleeved into plastic bag individually, pieces wrapped with water-proof material, bundled with nylon rope. Clear labels are tagged on the outside of the package for easy identification of the quantity and product I.D. Great care is taken during operation and transportation. Stainless Steel Profile Cutting packing will be according to international standard in bundles strapped by strips then into containers to avoid any damage.
Delivery: Within 10-25 days or asap if we have enough stock
"Yes, It’s in Stock and Ready to Deliver”
High Quality, Lower Cost But The Best Service in Steel Plates
Stainless Steel Profile Cutting and Sheets Available with Stock Sizes:
We export Stainless Steel Profile Cuttingand Sheets to Saudi Arabia, Iran, Iraq, United Arab Emirates, Qatar, Bahrain, Oman, Kuwait, Turkey, Egypt, Yemen, Syria, israel, Jordan, Cyprus, Singapore, Malaysia, Indonesia, Thailand, Vietnam, South Korea, Japan, Sri Lanka, Maldives, Bangladesh, Mayanmar, Taiwan, Cambodia, Argentina, Bolivia, Brazil, Chile, Venezuela, Colombia, Ecuador, Guyana, Paraguay, Uruguay, United States Of America, Canada, Mexico, Panama, Costa Rica, Puerto Rica, Trinidad And Tobago, Jamaica, Bahamas, Denmark, Russia, Norway, Germany, France, Italy, United Kingdom, Spain, Ukraine, Netherland, Belgium, Greece, Czech Republic, Portugal, Hungary, Albania, Austria, Switzerland, Slovakia, Finland, Ireland, Croatia, Slovenia, Malta, Nigeria, Algeria, Angola, South Africa, Libya, Egypt, Sudan, Equatorial Guinea, The Republic Of Congo, Gabon, Europe, Africa, Asia, North America, South America, Middle East, Far East.etc.
Prosaic Steel and Alloys is a well known worldwide exporter of Stainless Steel Profile Cuttingand Sheets, Prosaic Steel and Alloys is committed to provide each and every customer with the highest standard of customer service. We deals in Stainless Steel Profile Cuttingand Sheets in India & Overseas, offering a wide range of Stainless Steel Profile Cuttingand Sheet.
Prosaic Steel and Alloys is Leading Manufacturer, Distributor, Exporter, Stockholder and Supplier ofStainless Steel Profile Cuttingand Sheets in United States of America (USA), Saudi Arabia, Italy, Netherlands, Germany, Canada, Singapore, Malaysia, Indonesia
Stainless Steel 304 Sheets Plates, Stainless Steel 304L Sheets Plates, SS 304 Sheets Plates, SS 304L Sheets, Stainless Steel UNS S30400 Plates, SS UNS S30403 Sheets Plates, Stainless Steel Din 1.4306 Plates, SS Din 1.4307 Sheets