Stainless steels fabrication – Metal Works http://metalworks.co/ Wed, 22 Jun 2022 20:08:22 +0000 en-US hourly 1 https://wordpress.org/?v=5.9.3 https://metalworks.co/wp-content/uploads/2021/10/icon-31-120x120.png Stainless steels fabrication – Metal Works http://metalworks.co/ 32 32 The global structural steel fabrication market is expected to grow at a rate of 11% through 2026 https://metalworks.co/the-global-structural-steel-fabrication-market-is-expected-to-grow-at-a-rate-of-11-through-2026/ Wed, 22 Jun 2022 13:22:00 +0000 https://metalworks.co/the-global-structural-steel-fabrication-market-is-expected-to-grow-at-a-rate-of-11-through-2026/ Global Structural Steel Fabrication Market Report 2022: Market Size, Trends and Forecast to 2026 Business Research Company Global Structural Steel Fabrication Market Report 2022: Market Size, Trends and Forecast to 2026 LONDON, GREATER LONDON, UK, June 22, 2022 /EINPresswire.com/ — According to the ‘Global Structural Steel Fabrication Market Report 2022 – Global Market Size, Trends […]]]>

Global Structural Steel Fabrication Market Report 2022: Market Size, Trends and Forecast to 2026

Business Research Company Global Structural Steel Fabrication Market Report 2022: Market Size, Trends and Forecast to 2026

LONDON, GREATER LONDON, UK, June 22, 2022 /EINPresswire.com/ — According to the ‘Global Structural Steel Fabrication Market Report 2022 – Global Market Size, Trends and Forecasts 2022-2026’ published by The Business Research Company, the structural steel fabrication market share of Structural steel is then expected to reach $211.76 billion in 2026 at a CAGR of 10.6%. Growth in the construction industry is expected to propel the growth of the structural steel fabrication market in the future.

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The structural steel fabrication market includes sales of structural steel fabrication services and related products by entities (organizations, independent traders and partnerships) that refer to a set of activities carried out to convert raw materials in different shapes by steel fabricators. Structural steel fabrication is the process of cutting, bending, shaping and joining steel into various structures with predetermined sizes and shapes designed for assembly in buildings, industrial equipment, tools and various other end products.

Global Steel Structure Fabrication Market Trends
The introduction of CNC plasma cutting machines by steel fabricators in their fabrication plants for precise steel cutting is a major trend shaping the outlook for the structural steel fabrication market. In a CNC plasma machine, a plasma cutter is used to cut thin to thick metals along a multi-axis grid. The CNC technique has an advantage over manipulated plasma cutters since the cut is programmed and controlled by a computer rather than by human actions. For example, in April 2021, Salasar Techno Engineering, an India-based company that provides steel fabrication, opened a new structural steel fabrication plant in Uttar Pradesh, India. Salasar’s new facility includes high precision robotic multi-torch CNC plasma cutting equipment. The facility will fabricate heavy structural steel for power plants, subway stations, bridges, PEB buildings, warehouses, airport hangars, high-rise buildings and processing plants.

Global Steel Structure Fabrication Market Segments
The global steel structure fabrication market is segmented:
By Service: Metal Welding, Machining, Metal Forming, Metal Cutting, Metal Shearing, Metal Bending, Metal Rolling, Metal Punching, Metal Stamping
By product: carbon steel, alloy steel, stainless steel, tool steel
By End User: Aerospace, Automotive, Construction, Defense & Aerospace, Electronics, Energy & Power, Manufacturing, Mining, Others
By Geography: The global structural steel fabrication market report is segmented into North America, South America, Asia-Pacific, Eastern Europe, Western Europe, Middle East & Africa. Among these regions, Asia-Pacific accounts for the largest share.

Learn more about Global Structural Steel Fabrication Market report here
https://www.thebusinessresearchcompany.com/report/structural-steel-fabrication-global-market-report

The Global Structural Steel Fabrication Market Report 2022 is part of a series of new reports from The Business Research Company that provides structural steel fabrication market overviews, analysis and forecasts of Market size and growth for the global structural steel fabrication market, structural steel fabrication market share, steel fabrication market segments and geographies, market players of structural steel fabrication, revenue, profiles and market shares of the main competitors in the structural steel fabrication market. The Steel Structure Fabrication Market report identifies key countries and segments for opportunities and strategies based on market trends and key competitor approaches.

The 2022 Global TBRC Steel Structure Fabrication Market Report includes insights into the following:

Data segmentation: market size, global, by region and country, historical and forecast, and growth rate for 60 geographies

Major Market Players: O’Neal Manufacturing Service, BTD Manufacturing, EVS Metal, Defiance Metal Products, LancerFab Tech Pvt. Ltd, Mayville Engineering Company, Watson Engineering, Tata Steel, Zamil Steel Buildings India Private Limited, Sujana Group, Apex Buildsys Limited, Ironform Holdings Co., Bohai Group, Anyang Group Co. Ltd, Wuhan Group, POSCO, Hebei Group, Baogang Group , Gerdau SA, JSW Steel, POSCO, Taylor and Watson Ltd, STI Group, Richard L. Sensenig Company, Structural Steelworks & Engineering Ltd., Structural Fabrications Ltd, Lenex Steel and Steel LLC.

Regions: Asia-Pacific, China, Western Europe, Eastern Europe, North America, United States, South America, Middle East and Africa.

Country: Australia, Brazil, China, France, Germany, India, Indonesia, Japan, Russia, South Korea, UK, USA.

And more.

Looking for something else? Here is a list of similar reports from The Business Research Company:
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Global Steel Products Market Report 2022 – By Type (Rolled & Drawn Steel, Iron & Steel Pipes & Tubes), By Product Type (Flat Steel, Long Steel, Tubular Steel, Steel Pipes, Steel Tubes) ), by application (construction, automotive, energy, packaging, other applications) – Global market size, trends and forecasts 2022-2026
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The Impact of Precision Machining on the Future of Medical Device Manufacturing https://metalworks.co/the-impact-of-precision-machining-on-the-future-of-medical-device-manufacturing/ Wed, 15 Jun 2022 09:42:19 +0000 https://metalworks.co/the-impact-of-precision-machining-on-the-future-of-medical-device-manufacturing/ Unlike conventional manufacturing, precision machining produces parts with submicron precision. For medical applications, this brings the crucial benefits of miniaturization, custom fit and high performance. Ralph Zoontjens, product designer specializing in 3D printing, shares his perspective on the impact of precision machining on medical device manufacturing. Manufacturing Revolution Industry 4.0 in full swing and more […]]]>

Unlike conventional manufacturing, precision machining produces parts with submicron precision. For medical applications, this brings the crucial benefits of miniaturization, custom fit and high performance. Ralph Zoontjens, product designer specializing in 3D printing, shares his perspective on the impact of precision machining on medical device manufacturing.

Manufacturing Revolution

Industry 4.0 in full swing and more and more companies are taking the step towards digital manufacturing. CNC machines cut materials at blazing speeds with enhanced artificial intelligence and precision, ensuring the product meets the design engineer’s intent.

With precision machining, the struggle over geometric sizing and tolerances is over, since parts will be consistent with the 3D model down to the micron.

This is a considerable achievement, as deviations are often visible on different parts of the same batch, leading to high scrap rates and failure to meet performance requirements.

Computer Numerical Control (CNC) does not retain heat-affected areas or other mechanical defects from 3D printing, which is best suited for prototypes and preoperative planning models. By milling the material as is, it retains its consistent mechanical properties to meet higher quality standards.

Precision technology isn’t just an incremental improvement. It has a radical impact on medical applications.

It is able to make durable parts that can be carried on or inside the body for a good part of life. Previously impossible solutions can now enable new forms of microsurgery, such as on embryonic infants, blood vessels or the brain.

Miniaturization

A collection of devices relies on precision machining:

Insulin pumps

Defibrillators

Heart monitor implants

Pacemakers

Drug delivery systems

Kidney dialysis machines

Biometric trackers

Portable x-ray devices

MRI scanners

With precision technology, product housing, internal architecture, electronic integration and wiring solutions for your biometric tracker or digital x-ray are optimized. For wearable devices like heart monitor implants or pacemakers, their minimally invasive form factor with ultra-thin wall molded micro housing is a game changer in both comfort and aesthetic sensibility.

The instruments it manufactures also enable robot-assisted surgery such as heart valve surgeries. And we’re seeing strong growth for tiny parts like septa, sensors, microelectronics, microneedles, stents, and micromachined screws. Needless to say, this requires a great deal of specialization on the part of the provider.

Custom fit

Precision machining creates a perfect fit for critical applications such as prosthetics and orthotics. Thanks to these technologies, people do not just feel supported, but more capable.

The following replacements are typically machined using titanium or cobalt-chrome multi-axis CNC machines with polyethylene, acrylic, polyethylene terephthalate, or polyether ether ketone plastic components:

Major joint implants for the shoulder, hip or knee

Implants for the hand, ankle or elbow

Cranioplasty implants

Spinal implants

Cerebrospinal fluid diversion systems

Phakic lenses

Implantable catheter ports

Cochlear implants

Based on body scans, these complex solutions can be machined to fit the patient’s biomechanics perfectly. This is in stark contrast to traditionally handcrafted components. With a precision machined product, there is no more human error, no more patient dissatisfaction, no more second operations.

Professionals like surgeons and dentists benefit from access to precision manufacturing. Depending on their preference, they can now develop custom tools such as cutters, biopsy needles, implant holders, forceps, nebulizers and blade handles, or equip the robotic assistant with custom grippers.

In the future, healthcare professionals will use digital personalization apps to create custom components to specification, locally and on demand.

Along with functional benefits, there are also social acceptability factors – bringing hearing aids, canes and crutches, thin-walled machined biometric rings and other wearable medical devices to the fashion-savvy.

Ultra-Performance

Going from traditional to precision manufacturing is like turning a wheelbarrow into a race car. Electric drive, oil-free equipment prevents contaminants as well as particle-free, fastener-free assembly with laser welding and overmolding.

Digital control and AI-enhanced software provides optimum dimensional accuracy to enable complex design features.

An advantage over other processes is the myriad of biocompatible materials it allows. Due to the high spindle speeds, this requires very specific control parameters for each material. For example, polypropylene, polyethylene, and polyoxymethylene are best for thin-walled sections.

Nylon can also be used but has a small processing window, while polycarbonate and PET require delicate temperature control. For high strength applications, consider glass fiber filled ABS.

Medical-grade metal components such as guidewires, screws, implants, and brackets are made of titanium, stainless steel, aluminum, copper, as well as Kovar, Invar, and Inconel alloys. Nitinol, a smart shape-memory material, is an upcoming option for its resistance to bending and fatigue.

For reasons of efficiency or complex geometries, a hybrid approach is sometimes deployed. Metal 3D printing can be used to develop organic internal lattice structures for lightweight components to be post-finished within tolerances using CNC.

Devices like the Apple Watch owe their supreme finish to combining aluminum extrusion with precision milling and laser equipment in a process that leaves no edge and surface burrs, even inside the watch. ‘device.

For silicone parts such as membranes, valves and gaskets, micro-molding allows parts to be made down to a few millimeters while retaining all the detail required for specific structural areas. And with optical liquid silicone rubber (LSR), glass-like transparency can be achieved.

A clear choice

Medical devices must meet stringent durability, safety, biocompatibility and sterilization standards, as well as key mechanical requirements for flexibility, lubrication, buckling resistance and torque transfer.

State-of-the-art precision machining is the way to go in almost every case, allowing full control and a huge range of materials, with the added benefit of enabling ultra-customized products.

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Xpress Mobile Welding Phoenix now offers custom metal fabrication in Phoenix https://metalworks.co/xpress-mobile-welding-phoenix-now-offers-custom-metal-fabrication-in-phoenix/ Fri, 03 Jun 2022 16:48:30 +0000 https://metalworks.co/xpress-mobile-welding-phoenix-now-offers-custom-metal-fabrication-in-phoenix/ Gilbert, Arizona- Xpress Mobile Welding Phoenix, a Gilbert, AZ-based company, is pleased to announce that it now offers custom metal fabrication services for local homes and businesses in Phoenix and surrounding areas. The various processes of cutting, welding, rolling and bending, metal fabrication are used to create various types of objects that can be used […]]]>

Gilbert, Arizona-

Xpress Mobile Welding Phoenix, a Gilbert, AZ-based company, is pleased to announce that it now offers custom metal fabrication services for local homes and businesses in Phoenix and surrounding areas. The various processes of cutting, welding, rolling and bending, metal fabrication are used to create various types of objects that can be used as structural parts for various industries, from construction to automotive. It is important to note that in addition to welding, they offer various types of metalworking services, such as bending, drilling, shearing, punching, and plasma cutting. These metal parts are often used as car parts, truck parts, stairs, trailers, etc.

There are basic steps to follow in custom metal fabrication. The first step is to cut the metal into the required shape using various tools, such as plasma torches, lasers and water jets. The next step is to roll the cut metal into the desired shape using a rolling machine or by hand. Then the metal is bent into the required shape using various tools such as press brakes, brakes and hammers. And finally, the various metal parts are welded together to form the final product using various welding processes, such as gas welding, arc welding, and oxy-fuel welding.

The types of metals that can be custom made are: steel, aluminum, copper and brass. Steel is the most commonly used type of metal because it is durable and strong. It is generally applied in manufacturing and construction. Copper is a soft metal and is generally used in electrical applications. Aluminum is a lightweight metal that is typically used in aerospace and automotive applications. Brass is a strong metal that resists corrosion and is typically used in musical instruments and plumbing applications.

Xpress Mobile Welding Phoenix offers a wide range of welding services and techniques for almost all types of metals. These include welding repairs, metal maintenance – all metal, installation; steel structures; emergency repairs; aluminum repair specialist; aluminum boat repairs; aluminum car repairs; metal recycling; fences and gates; gardening equipment; trailers; planters; sliding doors; food grade stainless steel; the Windows; hinges and brackets; clothes racks; van storage units; cages; stroller repairs; decking and balustrade; privacy screens; retaining walls; industrial furniture; and more.

Apart custom metal fabricationxpress Mobile Welding Phoenix offers other types of metalworking, such as structural steel welding; repairs; and general welding. Welding of structural steel includes: reinforcement of the foundation; commercial and industrial welding; custom handrails; and decorative stairs. Repair work includes trucks; dumpsters; buckets; excavators for drilling rigs; and civil remedy modification. General welding includes pressure welding; structural welding; and pipe welding.

Founded in 2019, Xpress Mobile Welding Phoenix is ​​a locally owned, family owned, insured, licensed and ASME certified mobile welding business, with a team of certified welders who are highly skilled first class welders, with qualifications in welding practices, welding techniques, pipe welding, and marine and boat welding, and have over 20 years of experience in design, construction, fabrication, repairs and welding. Those in need of a welded item or a custom fabricator can call on them and they will come to the customer site anywhere in the Phoenix area. Xpress Mobile Welding Phoenix provides professional and fast on-site and mobile welding services for residential and commercial customers throughout the Metro and North Phoenix area, from the simplest types of metal repairs to more complex industrial welding.

Their welding capabilities include TIG, MIG and stick welding of steel, aluminum, stainless steel, cast iron and most other alloys with fast response times and competitive prices. . The owner of Xpress Mobile Welding Phoenix has over 10 years of experience in the industry and always strives to meet the needs of on-demand customers. And they always prioritize safety in conjunction with quality services. As a result, they are often hired to complete stakes on welding projects.

Those interested in mobile welding in Phoenix and other types of metal fabrication can visit the Xpress Mobile Welding Phoenix website or contact them by phone or email.

###

For more information about Xpress Mobile Welding Phoenix, contact the company here:

Xpress Mobile Welding Phoenix
Fernando Rivera
(623) 263-0277
[email protected]
922 North Colorado Street
Gilbert, AZ 85233

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Global Steel Structure Fabrication Market Report 2022: Size, https://metalworks.co/global-steel-structure-fabrication-market-report-2022-size/ Tue, 17 May 2022 07:00:00 +0000 https://metalworks.co/global-steel-structure-fabrication-market-report-2022-size/ structural steel fabrication market ‘Structural Steel Fabrication Global Market Report 2022 – Market Size, Trends, And Global Forecast 2022-2026’ by The Business Research Company is the most comprehensive report available on this market, with analysis of historical and forecast market growth, drivers and constraints causing and highlights the opportunities that companies in the sector can […]]]>

structural steel fabrication market

‘Structural Steel Fabrication Global Market Report 2022 – Market Size, Trends, And Global Forecast 2022-2026’ by The Business Research Company is the most comprehensive report available on this market, with analysis of historical and forecast market growth, drivers and constraints causing and highlights the opportunities that companies in the sector can seize. The structural steel fabrication market research report helps in gaining a truly global perspective of the structural steel fabrication industry as it covers 60 geographies around the world. Regional and country breakdowns give an analysis of the market in each geography, with market size information by region and country.

Regions covered in the Structural Steel Fabrication market report are Asia-Pacific, Western Europe, Eastern Europe, North America, South America, Middle East and Africa. Among these regions

Request a Sample of the Structural Steel Fabrication Market Report:
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The structural steel fabrication market includes sales of structural steel fabrication services and related products by entities (organizations, independent traders and partnerships) that refer to a set of activities carried out to convert raw materials in different shapes by steel fabricators. Structural steel fabrication is the process of cutting, bending, shaping and joining steel into various structures with predetermined sizes and shapes designed for assembly in buildings, industrial equipment, tools and various other end products.

Major competitors in the structural steel fabrication market include O’Neal Manufacturing Service, BTD Manufacturing, EVS Metal, Defiance Metal Products, LancerFab Tech Pvt. Ltd, Mayville Engineering Company, Watson Engineering, Tata Steel, Zamil Steel Buildings India Private Limited, Sujana Group, Apex Buildsys Limited, Ironform Holdings Co., Bohai Group, Anyang Group Co. Ltd, Wuhan Group, POSCO, Hebei Group, Baogang Group , Gerdau SA, JSW Steel, POSCO, Taylor and Watson Ltd, STI Group, Richard L. Sensenig Company, Structural Steelworks & Engineering Ltd., Structural Fabrications Ltd, Lenex Steel and Steel LLC.

The global structural steel fabrication market size is expected to grow from $123.08 billion in 2021 to $141.72 billion in 2022 at a compound annual growth rate (CAGR) of 15.1%. The global structural steel fabrication market size is then expected to reach USD 211.76 billion in 2026 at a CAGR of 10.6%.

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The TBRC report segments the global structural steel fabrication market:
1) By Service: Metal Welding, Machining, Metal Forming, Metal Cutting, Metal Shearing, Metal Bending, Metal Rolling, Metal Punching, Metal Stamping
2) By product: carbon steel, alloy steel, stainless steel, tool steel
3) By end user: aerospace, automotive, construction, defense and aerospace, electronics, energy and electricity, manufacturing, mining, other

Find out more about Steel Structure Fabrication Market here:
https://www.thebusinessresearchcompany.com/report/structural-steel-fabrication-global-market-report

The table of contents includes:
1. Summary
2. Characteristics of the steel structure fabrication market
3. Structural Steel Fabrication Market Trends and Strategies
4. Impact of COVID-19 on structural steel fabrication
5. Steel Structure Fabrication Market Size and Growth
……
26. Africa structural steel fabrication market
27. Structural Steel Fabrication Market Competitive Landscape and Company Profiles
28. Major mergers and acquisitions in the steel structure fabrication market
29. Structural Steel Fabricating Market Future Prospects and Potential Analysis
30. Appendix

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This press release was published on openPR.

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The manufacturing machine automates the production of flat parts https://metalworks.co/the-manufacturing-machine-automates-the-production-of-flat-parts/ Mon, 04 Apr 2022 07:00:00 +0000 https://metalworks.co/the-manufacturing-machine-automates-the-production-of-flat-parts/ Automation is the present of manufacturing. Even without robots, pallet changers or other obvious forms of manual labor reduction, competing manufacturers are finding ways to accomplish more with fewer people. An example is the use of machines that combine multiple operations on a single platform. However, the trade-offs involved in combining processes can result in […]]]>

Automation is the present of manufacturing.

Even without robots, pallet changers or other obvious forms of manual labor reduction, competing manufacturers are finding ways to accomplish more with fewer people. An example is the use of machines that combine multiple operations on a single platform. However, the trade-offs involved in combining processes can result in equipment that is just as specialized as the dedicated machines they replace.

Consider the Advanced Hybrid Laser, a laser manufacturing system from Murata Machinery (Muratec) that combines laser cutting, forming and tapping capabilities in a single multi-function machine. Flat parts cut from sheet metal with many formed features and threaded holes are a broad category of work. However, Jeff Tyl, Muratec’s national sales manager, aftermarket and manufacturing, says the designers also had a specific application in mind: panels for fabricated electrical enclosure components for the HVAC, medical and industrial industries. ‘lighting.

We see here the tooling of the punching station. The machine has an eight tool capacity, with up to 46 using optional tool changers. Photo credit: Muratec

Automate with specific parts in mind

Electrical box components have many features that must be stamped into the metal, as well as holes that must be threaded for fasteners. For materials half an inch and smaller, the laser will cut all interior holes and transfer material for forming and tapping while maintaining positional accuracies through the use of a fixed material clamp. For larger materials, it can be used as a stand-alone fiber laser where clamping is not required. Once in the forming and tapping station, the machine can use up to eight tools – 46 with one tool changer – to shape the material before tapping. “Previously, someone had to position it in the laser, then transfer the part to a forming machine, and then finally transfer it to tapping,” says Tyl.

Although the machine has a relatively large footprint, various manufacturers of flat parts requiring secondary operations could benefit from it. In fact, Muratec has already agreed to develop processes for medical parts, Tyl says, adding that the machine is also ideal for parts that require contouring. However, electrical boxes are ideal for this because the metal is thin and the parts require secondary processes.

“This machine is the first of its kind to my knowledge.” –Jeff Tyl, Muratec

“If you look at a hybrid machine, whether it’s a plasma punch or a laser punch or whatever, there’s always a limit,” says Tyl. “With the advanced hybrid laser, that limitation is press tonnage.” Specifically, the press can only achieve five tons each of up and down pressure, which means it is suitable for materials with a thickness of 12 gauge or less. “It really finds its place in materials that require a bit of tapping and maybe a bit of counter sinking,” says Tyl.

Muratec Advanced Hybrid Laser Tapping

The tapping station has four separate spindles for tapping holes. When using particularly thin parts, holes must be extruded at the forming station to create space for tapping. Photo credit: Muratec

Additionally, forming before tapping is usually a requirement for thinner parts, including panels for electrical enclosure components, Tyl says. “It is important to form particularly thin plates before tapping because they do not have the thickness required for tapping,” he explains. “So the tool has to extrude the metal up or down to provide the space to cut the threads.” The tapping system uses independent servos to generate the cutting forces.

Finally, Tyl says potential users should consider the need for new tools. “This machine is the first of its kind to my knowledge. No current tool will work with this,” he explains. “However, both Mate and Murata will craft tools.”

In manufacturing, there will always be tensions between specialized and generalized approaches to automation, and either approach is unlikely to completely eclipse the other. The inherent trade-offs of combining processes on one platform can narrow a machine’s range of applications, but in this niche it can outperform generalized approaches, as this hybrid machine demonstrates.

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Selection and use of abrasives for metal fabrication and welding https://metalworks.co/selection-and-use-of-abrasives-for-metal-fabrication-and-welding/ Fri, 25 Feb 2022 08:00:00 +0000 https://metalworks.co/selection-and-use-of-abrasives-for-metal-fabrication-and-welding/ Selecting and using the best abrasive for each metalworking application isn’t difficult, but understanding what to use and how to use it to maximize productivity in a metal fabrication shop takes a bit of research. Norton|Saint-Gobain Abrasives Choosing the right abrasive and using it correctly for metal fabrication and welding applications can make all the […]]]>

Selecting and using the best abrasive for each metalworking application isn’t difficult, but understanding what to use and how to use it to maximize productivity in a metal fabrication shop takes a bit of research. Norton|Saint-Gobain Abrasives

Choosing the right abrasive and using it correctly for metal fabrication and welding applications can make all the difference in maximizing productivity and minimizing costs. Yet with today’s tight deadlines, manufacturers are tempted to use whatever abrasive is at hand without considering which is best for the application. Some might even ignore some basic grinding safety rules. The results can be reduced finished product performance, increased grinding and finishing costs, and lost productivity.

Selection of classy abrasives

It is important to realize that abrasive products come in different grades, which some manufacturers designate as good, better, and best (this is the pattern used in the tables in this article, in descending order: 1=best, 2=best , 3 = good).

Metal fabricators who measure total grinding results and want the lowest overall cost for an application use the best abrasive products available for most of their jobs, reserving the use of the medium grade for high productivity applications where only the abrasive cost is important. End users desiring the lowest initial cost are likely to select good abrasives, but should be aware that such a choice may not be economical in the long run.

Fabrication and welding shop owners wishing to determine total grinding results can work with their abrasive supplier to test and compare different grades of abrasive and alternative products from different manufacturers. These tests, performed on-site, reveal the relative cost of abrasive based on price and wear rate and can even measure overall worker productivity based on a worker’s salary. Then the relative abrasive cost can be added to the operator cost to determine the total grinding cost. What these tests generally show is that the most advanced (best) abrasive products generally last longer, work faster, make the best use of worker time, and often provide the most cost-effective choice.

Dismantling a weld bead

The first step in processing a weld is grinding to remove as much of it as possible (see Table 1). The amount of work required for this step depends on the hardness of the material, the type of weld, the skill of the welder, and a few other factors. In most cases, removing a weld bead is more economical with a right angle grinder. For this application, the abrasives used on these tools may be fiber discs, flap discs or smaller versions of these products, used for greater control or to handle smaller work envelopes.

Fiber discs remove excess material from flat and contoured surfaces with a fast initial removal rate. A few tips :

  • Use a 60 or 80 grit ceramic disc to quickly remove the solder and produce a depth of scratch that will create a usable surface for further enhancements.
  • Use a hard backing pad to remove stock more aggressively.
  • Use a product with a grinding aid to reduce heat in the grinding area and prevent burns.
  • Use a 10-15 degree approach angle to remove solder effectively and efficiently.

Flap discs are good for removing thick weld beads and excess material while providing long life:

  • For general use, the recommendation is a 60 grit ceramic flap disc.
  • For higher speed and higher material removal, a Type 29 taper is the best choice.
  • When blending and smooth cuts are needed, a Type 27 dish is the best choice.

The advantages of flap discs over a single layer product include:

  • Up to 20 times lifespan; fewer disc changes reduce labor costs.
  • More homogeneous finish.
  • No backup buffer required.
  • Easier storage, no looping.

Whether you use flap discs or fiber discs, higher performance ceramic grit abrasives work best when powered by an angle grinder rated over 1200 watts.

Mixing and finishing

The second step is to remove the scratches created by the first step and define the directional scratch pattern of the final product. It is very important to get below the rotating scratch pattern created by the grinder during the disassembly step. If this pattern is not completely removed, deeper grind lines may appear when trying to develop finer finishes. The abrasive for this step, a #3 finish, is a conventional 100 or 120 grit sanding belt of the size required for the part (see Table 2).

For applications requiring a #4 through #8 finish, it is customary that the depth, pattern and direction of the scratches be uniform across the entire surface of the product. To achieve such a finish, it is common to use an abrasive with the same linear scratch pattern as the abrasive used in the previous step, starting with a medium-grit non-woven strip or wheel.

When a uniform directional scratch pattern is not a requirement of the final product, a rotary tool can do the job after making the weld. In this case, two abrasives of choice are a premium non-woven unified wheel or a non-woven surface conditioning disc. Surface blending discs conform to contours and provide lower cut rates with finer finishing capabilities.

Controlled use of the disc at a 10-15 degree angle prevents random scratches. A coarse grit disc provides mixing capability that prepares the surface for polishing or a coating such as paint.

It may be beneficial to switch to a nonwoven product as early in the blending process as possible. For example, trimming, blending and finishing can be done with a single nonwoven product to reduce the number of separate steps (see Table 2 and Table 3). A non-woven product also provides a controlled and sustained finish while decreasing the likelihood of undercuts and gouging. The non-woven type of product also offers cooler action to minimize the chance of warping or fading. Finally, it is quieter and vibrates less.

Security and productivity

Following a few safety rules and general productivity tips can help improve results:

  • Preperation. Review all safety rules established by your employer, government agency or other authority:
    • Do not grind near loose or flammable clothing.
    • Work only in well-ventilated areas and prepare the work area to keep sparks and debris away from your body and bystanders.
    • Consider the size and shape of the project when planning grinding processes. On large or bulky parts, take care to avoid overhangs and imbalances. Use a vise or clamps to secure small parts.
    • Avoid contact with the spinning disc or backing pad.
  • Mounting the abrasive disc. Mount the drive according to the manufacturer’s instructions. When using a disc with drilled holes, do not stick any objects into the holes.
  • Using the abrasive disc. Using an abrasive disc isn’t difficult, but using it effectively requires understanding several do’s and don’ts:
    • Start the tool right next to the part; bring it up to full operating speed before you start grinding or sanding.
    • Always insert the blade into the workpiece at a 5-10 degree angle to the surface of the workpiece.
    • Look for any areas of the room that may catch, snag, or jam the disc. Rather than jamming the disc in such an area, work the disc gradually into the jagged surface before letting the edge of the disc bite into it. Excessive punishment of the disc edge will break even the toughest coated abrasive disc.
    • When grinding a depression, molding, lip, or heavy weld, start in that area and move the grinder away from it. Do not start on a flat surface and move the grinder into such a contour or feature.
    • When using a disc for heavy stock removal, do not use the entire surface of the disc. This may cause the whole tool to shake in a rough, jittery type of action.
    • When using a non-round disc and backing pad, avoid tight corners and any place where the disc may snag or snag.
    • If vibrations or vibrations occur during use, stop the tool immediately. Determine the problem and fix it before continuing.
    • If you drop the tool, replace the buffer and backup disk before continuing.
  • After Grinding. Do not put the tool down until the disc has stopped spinning. Do not store or lay the tool on the disc and pad.
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Metal fabrication investment expected to increase in 2022 https://metalworks.co/metal-fabrication-investment-expected-to-increase-in-2022/ Mon, 21 Feb 2022 08:00:00 +0000 https://metalworks.co/metal-fabrication-investment-expected-to-increase-in-2022/ Getty Images Capital spending in metal fabrication is back, with much fanfare. After suffering a brief dip, capital spending is on the rise in 2022, nearing pre-pandemic industry highs. This is according to the recently published “2022 Capital Spending Forecast”, published by the Association of Manufacturers and Manufacturers Intl. (FMA). Each year, FMA surveys the […]]]>

Getty Images

Capital spending in metal fabrication is back, with much fanfare. After suffering a brief dip, capital spending is on the rise in 2022, nearing pre-pandemic industry highs. This is according to the recently published “2022 Capital Spending Forecast”, published by the Association of Manufacturers and Manufacturers Intl. (FMA).

Each year, FMA surveys the industry and, from a statistical sample, forecasts how much US metal fabricators will spend on equipment and software over the next year. Since these surveys ask about planned (not past) spending, unexpected economic changes usually take a year to register. So the sharp drop in projected spending during the Great Recession recorded in the FMA survey in 2010, not 2009 or 2008, and something similar happened during the pandemic. Manufacturers surveyed in late 2019 said they expected 2020 spending to hit new highs, but, of course, the pandemic changed those plans.

What’s significant, however, is how minor the decline in industry spending has been over the past tumultuous years. During the Great Recession, planned spending dropped from over $2 billion in 2009 to just $1.3 billion in 2010. Planned spending in 2020 was $2.7 billion; in 2021, that figure dropped to $2.4 billion, and in 2022, planned spending rose back to $2.6 billion. The Great Recession shattered credit markets, which drove back investment across the board. The pandemic recession has affected businesses in different ways; some have suffered significantly, while others (especially those lucky enough to serve the right end markets) have thrived.

The concentration of capital spending has also changed, especially with respect to plant size. Historically, very small businesses (stores with less than 20 employees) have collectively dominated capital spending. Yes, each small store spent a tiny amount compared to large employers, but since there were so many of them, they collectively spent more.

It changes. The industry has about the same number of small stores as it did in 2010, but their collective buying power isn’t what it used to be, at least relative to what larger companies spend. In 2022, planned collective spending for factories with 50 to 250 employees reached $1.1 billion, more than triple the amount reported by the same group in 2010. For factories with less than 20 employees, this amount was $261 million, down from the reported $308 million. in 2010.

As always, large companies (over 1,000 employees) have spend per plant that still exceeds their smaller cousins, but since the sector has few “whales”, their total spend, while large, does not dominate. not the entire industry. In 2010, factories with more than 1,000 employees are expected to collectively spend more than $311 million. By 2022, that number has dropped to $262 million.

This is probably all related to trends in metal fabrication equipment. A small shop might not have to spend a lot to get a used small press brake or even a small plasma table. But investing in what has become truly revolutionary equipment – ​​fiber lasers, automated tool change press brakes, and all the robotics and material handling automation that may come with them – requires a much higher financial commitment.

The variation in expenses by plant size can also be seen in the types of equipment that manufacturers buy. At $288 million, projected spending on welding power sources for 2022 more than doubled since 2010, when it was the largest equipment category behind consumables. This makes sense, given the ubiquity of welding in metal fabrication. Larger OEMs and smaller fabrication shops don’t have much in common, but they probably both employ welders.

In 2022, welding power sources are no longer the largest expense category. Fiber lasers are now at the top of the list, with more than $318 million in planned spending. Additionally, manufacturers plan to spend over $207 million on hydraulic press brakes alone. And that’s not even including the nearly $70 million spent on electric press brakes and the additional $90 million that should be spent on benders and brakes. These big ticket items require manufacturers to have financial resources that might be difficult for smaller stores to muster.

Perhaps one of the most telling points from the survey was how manufacturers said the pandemic had affected their investment in automation. Nearly 80% of respondents at companies with between 500 and 999 employees said the pandemic had accelerated or expanded their investment in automation. Only 28% of smaller businesses (less than 20 people) said the same.

]]> Salary Trends and the Future of Metal Fabrication https://metalworks.co/salary-trends-and-the-future-of-metal-fabrication/ Thu, 13 Jan 2022 08:00:00 +0000 https://metalworks.co/salary-trends-and-the-future-of-metal-fabrication/ Data from a 2021 salary survey reveals the complex realities of the metal fabrication labor market, realities that will define the business for years to come. metamorworks/iStock/Getty Images Plus Nothing gets people talking in this industry like the lack of skilled labor or, right now, the lack of work shifts. No manufacturer can truly automate […]]]>

Data from a 2021 salary survey reveals the complex realities of the metal fabrication labor market, realities that will define the business for years to come. metamorworks/iStock/Getty Images Plus

Nothing gets people talking in this industry like the lack of skilled labor or, right now, the lack of work shifts. No manufacturer can truly automate all of its labor issues, although automation has become an increasingly important part of the puzzle.

Of course, some manufacturers can automate more. Indeed, a large part of the respondents to the “2022 Capital Equipment Forecast”, which will be published shortly by the Association of Manufacturers and Manufacturers Intl. (FMA)said the lack of labor would be a big driver of their investment strategy going forward.

Yet even the best automation wouldn’t be very effective without the right people, and the right people need a competitive salary. The trends revealed in the 2021 “Salary and Benefits Survey”, published by FMA, provide insight into what a competitive salary really is.

Stability before chaos

Introducing the survey, Steve Zerio, a member of FMA’s management advisory board and president of Triumph Partners, a Michigan-based consulting firm, wrote, “About 69% of respondents believe that 2022 will increase the salaries of 2% or more, compared to only 47% per year. one year ago. Hearing how busy many FMA members are right now shows the intention to take full care of compensation. … The survey shows relative stability in a time of personal chaos, although some chaos is not visible until the 2022 survey.”

Wage increases in metal fabrication were most pronounced in workshops. While executives saw average annual increases of just 1.6% and office workers 2.3%, blue-collar workers saw their salaries increase by 3.1%. This trend should continue. Of course, granting wage increases that significantly outweigh productivity gains puts a manufacturer in a tough spot. But when a shop has the right technology and can make the most of every dollar paid, it’s headed in the right direction.

In this regard, manufacturers have headed in the right direction. Participants in FMA’s Custom Metal Fabrication 2021 “Financial ratios and operational benchmarking survey” (covering fiscal 2020) reported average revenue per employee of more than $208,000, down slightly from the $214,000 reported the previous year, but up significantly from the 170 $000 reported three years ago.

Market forces affecting wages

Several labor market forces could influence wage growth in metal manufacturing. For jobs less affected by automation, the tight labor market is driving up wages, especially for those with broadly applicable skills, such as those who can drive a forklift. Since 2018, salaries for forklift drivers have increased as much or often more than skilled machine operator positions, at least when measured by median salary.

According to the 2021 survey, most forklift drivers (those between the 25th and 75th percentile) earned between $32,240 and $41,600, with a median of $39,520. The average was nearly identical, at $39,810. Positions with higher averages than medians tend to have more salaries clustered at the top of the spectrum. These high salaries pull the average salary higher. For drivers, this is not the case.

Salaries for more specialized and skilled positions evolve differently. Starting salaries remain low at some companies, but average salaries are above the median. Translation: More report salaries at the higher end of the income range. The best examples include experienced operators of press brakes and laser cutting machines. Their average salaries are above the median, sometimes by several thousand dollars. Both have a few at the extremes earning very low and very high salaries. But again, more higher salaries pull the average salary up.

This could reflect what remains a complicated reality. Automation allows less skilled people to become more productive. However, their pay may be average or even low, as it doesn’t take years of training to bring someone up to speed, at least for some of the simpler shop jobs, especially if someone is another program and configures a machine. . They are likely required to measure parts, complete inspection paperwork, and report problems. But to solve major problems, they call the department head for help.

What is the career path for such operators? Some might be happy to clock in, have a predictable work day, and go home. Others might move up the ranks by becoming floaters, training on multiple machines. According to the FMA survey, salaries for multiple machine operators show the same pattern as those for brake and laser operators: a greater number of higher salaries push the average higher than the median. Some might choose to specialize on one machine, one day becoming the department head or tech guru — again, one of the many higher-earning people who drive up the average job salary.

chart illustrating manufacturing employee data

In a webinar on the FMA 2021 Salary and Benefits Survey, Steve Zerio, President of Michigan-based Triumph Partners, illustrated four intertwined factors driving employee satisfaction: compensation, commitment, development and resources.

Or they could move into supervision or management. Of course, this trade is dominated by small shops where there can only be a limited number of chefs. So a few might move on to other areas, like programming or estimating.

Jobs like programming and estimating illustrate the profound impacts of technological change, including the benefits and challenges it presents for employers trying to attract people to the industry. Some stores may manually nest a repeat order and use excel sheets to build an estimate for the sales team, but a few operations have nearly or completely automated both processes.

Of course, such software automation does not apply to every manufacturer’s business model. But the mere fact that these tasks can in some cases be fully automated, with 1s and 0s doing all the work that human teams did, will likely affect careers involving those skill sets. According to the FMA Salary Survey, most estimators earn between $52,000 and $70,000 per year. In the coming years, however, as the process becomes more driven by software and perhaps even artificial intelligence and machine learning, careers in estimating may change.

This does not mean that current estimators will lose their jobs. Manufacturers these days wouldn’t dare let such an experience out of their doors. But in the future, those who once specialized in estimating may wear many hats.

Exciting times for metal fabrication

As part of its FMA webinar, Zerio showed a slide with four cross-cutting elements that make up employee satisfaction: compensation, engagement, development, and resources. Compensation is at the top, for obvious reasons, but it’s not the only one. Engagement plays a part, including the use of internal company surveys, town hall meetings, company picnics, employee recognition programs and even corporate giveaways. Still, Zerio added that all of these won’t help employee engagement without honest communication about the health of the business and its future. “Consistent, open and honest communication is the true source of employee engagement,” he said.

Next comes employee development. Employees need career plans, which may include additional internal and external training. When the learning never stops, going to work becomes more interesting.

Finally, employees need resources to do their jobs. This includes tools and machines, but it also includes a business structure that makes their working lives easier. A company full of functional silos (both real and perceived) – with each working to maximize their own metrics without worrying about what’s “over the wall” in another department – creates fertile ground for the frustration of employees.

Get ready for one hell of a ride

Improving employee retention is a complicated puzzle. But if all of these pieces of the puzzle are in place, then a metal fabrication operation can offer an entire career, anchored by decades of technical expertise, but also on the cusp of significant change. New technologies like AI and machine learning aren’t just pushing stores to run their operations in new ways.

Someone starting out in a fabrication shop today will likely witness dramatic changes driven by technology and changing demographics on the shop floor. Today, a manufacturer’s youngest employees can’t remember a time before smartphones. They also see the automaton as a natural part of the manufacturing landscape; his presence could be the very reason they chose to work in the field.

As manufacturers head into 2022, with weak global supply chains exposed and demand for domestic manufacturing on the rise, metals manufacturing is on the cusp of big change and unprecedented opportunity. Those who choose to work in the field are in for a hell of a ride.

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Laser coating as a potential coating fabrication of magnesium alloys https://metalworks.co/laser-coating-as-a-potential-coating-fabrication-of-magnesium-alloys/ Tue, 14 Dec 2021 08:00:00 +0000 https://metalworks.co/laser-coating-as-a-potential-coating-fabrication-of-magnesium-alloys/ In a recent study published in the journal MetalsSpanish researchers conducted a state-of-the-art investigation of key process parameters of magnesium laser coating to understand the effect of different coating-substrate systems on mechanical and corrosion resistance properties. Study: An Introduction to Laser Plating Coatings on Magnesium Alloys. Image Credit: Juergen Faelchle/Shutterstock.com Magnesium alloys and laser coating […]]]>

In a recent study published in the journal MetalsSpanish researchers conducted a state-of-the-art investigation of key process parameters of magnesium laser coating to understand the effect of different coating-substrate systems on mechanical and corrosion resistance properties.

Study: An Introduction to Laser Plating Coatings on Magnesium Alloys. Image Credit: Juergen Faelchle/Shutterstock.com

Magnesium alloys and laser coating

Magnesium alloys are good structural materials due to their low density, which results in very high specific mechanical properties, ease of machining and low cost. The main constraints of magnesium alloys are their poor surface characteristics and their poor resistance to wear and corrosion. One strategy to overcome these constraints is to use laser coating techniques to create protective surface coatings.

Different methods of cladding laser feeding: (a) paste feeding;  (b) powder injection;  (c) wire feed;  (d) preplaced powder [6].

Different laser cladding feeding methods: (a) pulp feed; (b) powder injection; (vs) wire feed; (D) preplaced powder. Riquelme, A et al., Metals

The main advantages of laser coating over traditional approaches include reduced thermal distortion of the substrate, improved surface attributes with low dilution, and improved surface quality. To obtain coatings with good mechanical properties, it is necessary to choose the appropriate process parameters (laser power, powder feed, scanning speed and properties of the substrate and powder)

Laser manufacturing methods are divided into three types: laser plating, laser alloying, and laser glazing. Laser coating is a coating manufacturing technology that uses a laser as an energetic material to generate low porosity and enhanced coatings on metals. Laser alloy technology simultaneously simulates the feed material and the substrate, resulting in a homogeneous alloy metal. The laser glazing only melts a small part of the substrate and cools quickly, resulting in amorphous crystals.

This study examines current magnesium laser cladding processes and investigates the effect of the most critical manufacturing parameters on the interaction of various coating-substrate systems used on mechanical properties and corrosion resistance.

Methodology

The coating process was carried out using a laser coating system, which includes a laser (diode laser or Nd:Yag laser or CO2 laser), excimer laser and a feed material, which is sprayed with a carrier gas and coaxial with the laser beam. The feed material is a spherical powder sprayed with a carrier gas through a coating nozzle. The coating nozzle laser is connected to a motor control system, usually consisting of a CAD (computer aided drafting) system and a motion robot or xy motion table.

Inputs, outputs and process parameters of laser coating [6].

Inputs, outputs and process parameters of laser coating. Riquelme, A et al., Metals

Effect of process parameters

According to the various studies, the input parameters have an impact on the laser cladding of magnesium alloys and to obtain high quality coatings, the optimal combination of scanning speed and laser power must be determined. Coating geometry, dilution, melting, and heat affected zones are all affected by focal position on the substrate surface. The wavelength of the laser beam has a significant impact on the reflectivity-absorptivity of the metal. The energy absorbed by the substrate expands the dilution zone, affecting the microstructure and characteristics of the coating.

The output parameters of the laser coating are determined by the input factors such as dilution ratio, coating geometry, and the existence of cracks and pores, which are mainly governed by the laser, the motion device, and the characteristics of the feed material.

Most pure metal, binary and ternary alloy coatings include Mg-Al because Al increases the hardness of Mg; however, adding Al to Mg alloys reduces corrosion performance. The presence of Al allows some of the generated phases to conform to the Al-Mg equilibrium phase diagram, and the presence of other metals causes the formation of Al-metal or Mg-metal phases.

Investigation of High Entropy Alloy (HEA) coatings (AlCoCrCuFeNi coatings) on pure magnesium reveals that dilution between substrate and coating allows detection of CuMg2 dendrites.

Studies on the fabrication of ceramic coatings on magnesium alloys suggest that ceramics have a low affinity to react with the magnesium substrate, form other compounds, refine the substrate microstructure, and improve resistance to wear and corrosion. substrate corrosion.

conclusion

Researchers investigated the effect of process parameters on magnesium laser coating. According to the researchers, the most studied matrices are aluminum-based alloys, and frequently used ceramic reinforcements have a particulate morphology because these composite coatings combine improved tribological properties and high corrosion resistance.

Understanding how different coating manufacturing parameters affect the final surface properties of magnesium alloys is essential for their use in a wide range of manufacturing situations. In the future, several processes such as welding with laser cladding or three-dimensional printing with direct laser deposition can be integrated as an extension of the laser cladding process.

The references

Source: Riquelme, A.; Rodrigo, P. An Introduction to Laser Plating Coatings on Magnesium Alloys. Metals 2021, 11, 1993. https://www.mdpi.com/2075-4701/11/12/1993

Disclaimer: The views expressed herein are those of the author expressed privately and do not necessarily represent the views of AZoM.com Limited T/A AZoNetwork, the owner and operator of this website. This disclaimer forms part of the terms of use of this website.

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Jindal Stainless holds stainless steel fabrication workshop for inmates at Lucknow Central Prison https://metalworks.co/jindal-stainless-holds-stainless-steel-fabrication-workshop-for-inmates-at-lucknow-central-prison/ Fri, 26 Nov 2021 08:00:00 +0000 https://metalworks.co/jindal-stainless-holds-stainless-steel-fabrication-workshop-for-inmates-at-lucknow-central-prison/ Advancing the cause of “Skill India”, Jindal Stainless started a three-day stainless steel fabrication workshop for 30 inmates at Lucknow Central Prison. This initiative is part of the company’s stainless steel fabricator qualification pack developed in association with the National Skill Development Council (NSDC) and the Capital Goods Skill Council (CGSC). As part of this […]]]>

Advancing the cause of “Skill India”, Jindal Stainless started a three-day stainless steel fabrication workshop for 30 inmates at Lucknow Central Prison. This initiative is part of the company’s stainless steel fabricator qualification pack developed in association with the National Skill Development Council (NSDC) and the Capital Goods Skill Council (CGSC). As part of this initiative, experts from Jindal Stainless will provide training to inmates on key manufacturing aspects such as welding, cutting and polishing of stainless steel and provide real-time experience of the applications of stainless steel. stainless steel through its display vans. Speaking about this initiative, the Chief Superintendent of the Central Prison, Mr. Ambreesh Gaur, said, “We follow the philosophy of reform and rehabilitation for our inmates. This manufacturing workshop offers immense opportunities for inmates to improve their skills. On behalf of the institution, I thank Jindal Stainless for their support in helping inmates to lead dignified lives after their term in office. “

Commenting on this initiative, Jindal Stainless Managing Director Abhyuday Jindal said, “Our program is supported by the National Skills Development Council. Our aim is to develop the skills of inmates while they are serving their sentence and to help them find respectable and remunerative employment options after their time in prison. Professionally trained stainless steel makers earn better livelihoods. It also helps to empower people and build a sustainable world at the same time. “

Stainless steel is a green metal because it is ~ 100% recyclable. Due to its properties of resistance to corrosion, heat, pressure, as well as long service life, the metal finds application in various industries, including railways, metro projects, white goods. , transport, heavy machinery, etc. Regular hands-on training and professional advice from experts improve the adoption of stainless steel, thereby boosting domestic manufacturing, increasing employability, thereby contributing to the cause of nation-building.

Launched under the auspices of the government’s ‘Skill India’ and Pradhan Mantri Kaushal Vikas Yojana program, this initiative trains manufacturers for three days through an NSDC-approved training partner. Upon completion of this program, the CGSC assesses participants and successful applicants receive a national level certificate of recognition.

So far, Jindal Stainless has conducted over 20 training programs as part of this initiative and has trained over 10,000 manufacturers. The last such program for inmates was conducted at Varanasi Prison, where more than 30 inmates received training. Four special stainless steel vans developed by Jindal Stainless travel the country with trainers to impart hands-on experience and introduce manufacturers to the different possibilities of stainless steel applications.

Shares of Jindal Stainless Limited were last trading on the BSE at Rs. 168.40 from the previous close of Rs. 181.15. The total number of shares traded during the day was 125,839 in more than 2,676 trades.

The share hit an intraday high of Rs. 179.00 and an intraday low of 167.20. The net turnover during the day was Rs. 21,722,966.00.

Source: Equity Bulls

Keywords


JindalStainless steel
INE220G01021
JSL
Competence development
NSDC
Manufacturing workshop

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