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Stainless Steel Flanges & Fitting In Mumbai | Maha Bhairav Stainless Steel

ALLOY STEEL PIPE FITTINGS in Navi Mumbai | Maha Bhairav Stainless Steel

ALLOY STEEL PIPE FITTINGS in Navi Mumbai | Maha Bhairav Stainless Steel

ALLOY STEEL PIPE FITTINGS in Navi Mumbai | Maha Bhairav Stainless Steel
ALLOY STEEL PIPE FITTINGS in Navi Mumbai | Maha Bhairav Stainless Steel
Alloy Steel Pipe Fittings Manufacturer in india

ASTM A234 Wpb, ASTM A234 Gr Wpb, ASTM A234 Fittings Manufacturers in India, Alloy Steel Pipe Fittings Manufacturers,
Call: +91-022-66109829 | Send Mail: mahabhairavstainless@gmail.com

An ISO 9001:2008 Certified Company, Maha Bhairav Stainless Steel is one of the leading Alloy Steel Pipe Fittings Manufacturers, engaged in the manufacture and distribution of ASTM A234 WP11 Elbow, ASTM A234 WP11 Tee suppliers in India, ASTM A234 WP11 Reducer, ASTM A234 WP11 Pipe Bend, ASTM A234 WP11 Long Radius Bend, ASTM A234 WP11 Lateral Tee manufacturers, alloy steel galvanized pipe fittings schedule 40, Alloy Steel Pipe Fittings Manufacturers, ASTM A234 WP11 Buttweld Fittings manufacturer, ASTM A234 WP11 Weld Fittings suppliers, alloy steel galvanized pipe fittings manufacturers

  •  Alloy Steel Pipe Fittings Specification
  •  What is Alloy Steel Pipe Fittings?
  •  ASTM A234 WP11 Cross Fitting
  •  ASTM A234 WP11 Reducing Cross Fitting
  •  ASTM A234 WP11 180° SR Return Bend
  •  ASTM A234 WP11 Pipe Bend / Piggable Bend
  •  ASTM A234 WP11 Long Radius Bend
  •  ASTM A234 WP11 Couplings
  •  ASTM A234 WP11 Pipe Nipples
  •  ASTM A234 WP11 Elbows
  •  ASTM A234 WP11 Reducing Elbows
  •  ASTM A234 WP11 45° Elbows
  •  ASTM A234 WP11 Tee fitting
  •  ASTM A234 WP11 Forged /Plate Cut Rings
  •  ASTM A234 WP11 180° LR Return Bend
  •  ASTM A234 WP11 Forged / Plate Circles
  •  ASTM A234 WP11 Lateral
  •  ASTM A234 WP11 Reducers
  •  ASTM A234 WP11 Stub Ends
  •  ASTM A234 WP11 End Caps
  •  Alloy Steel Pipe Fittings Price List in India

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Stainless Steel Pipe Supplier In Mumbai | Maha Bhairav Stainless Steel

Carbon Steel Pipe manufacturer | Maha Bhairav Stainless Steel

Carbon Steel Pipe manufacturer | Maha Bhairav Stainless Steel
Carbon Steel Pipe manufacturer | Maha Bhairav Stainless Steel
Carbon Steel Pipe manufacturer | Maha Bhairav Stainless Steel
ASTM A420 WPL6/ WPL3 Carbon Steel Pipe Fittings manufacturer in India

CS High Pressure Pipe Fittings And Flanges Manufacturers in India, Industrial Pipe Fittings, Carbon Steel Gas Pipe Fittings
Call: +91-022-66109829 | Send Mail: mahabhairavstainless@gmail.com

An ISO 9001:2008 Certified Company, Maha Bhairav Stainless Steel is one of the leading A420 WPL6 Fittings manufacturers in India , engaged in the manufacture and distribution of A420 WPL6 Fittings, A420 WPL6 Weld Fittings, A420 WPL6 Elbow, A420 WPL6 Tee, A420 Gr WPL3, A420 WPL3 Fittings, High Pressure CS Pipe Fittings manufacturers India, A420 WPL3/WPL6 material supplier Mumbai

  •  What is A420 WPL6 Fittings?
  •  A420 WPL6/ WPL3 fittings Specification
  •  A420 WPL6/ WPL3 Tee fitting
  •  A420 WPL6/ WPL3 Reducers
  •  A420 WPL6/ WPL3 Stub Ends
  •  A420 WPL6/ WPL3 End Caps
  •  A420 WPL6/ WPL3 Cross Fitting
  •  A420 WPL6/ WPL3 Reducing Cross Fitting
  •  A420 WPL6/ WPL3 Elbows
  •  A420 WPL6/ WPL3 Reducing Elbows
  •  A420 WPL6/ WPL3 45° Elbows
  •  A420 WPL6/ WPL3 180° SR Return Bend
  •  A420 WPL6/ WPL3 Pipe Bend / Piggable Bend
  •  A420 WPL6/ WPL3 Long Radius Bend
  •  A420 WPL6/ WPL3 Couplings
  •  A420 WPL6/ WPL3 Pipe Nipples
  •  A420 WPL6/ WPL3 Forged /Plate Cut Rings
  •  A420 WPL6/ WPL3 180° LR Return Bend
  •  A420 WPL6/ WPL3 Forged / Plate Circles
  •  A420 WPL6/ WPL3 Lateral
  •  Carbon Steel Pipe Fittings Price List in India

Supplier Of Stainless steel pipe in Mumbai | Maha Bhairav Stainless Steel

Supplier Of Stainless steel pipe in Mumbai | Maha Bhairav Stainless Steel

Supplier Of Stainless steel pipe in Mumbai | Maha Bhairav Stainless Steel
Supplier Of Stainless steel pipe in Mumbai | Maha Bhairav Stainless Steel

The Manufacturing Process

The manufacture of stainless steel involves a series of processes. First, the steel is melted,

To make stainless steel, the raw materials—iron ore, chromium, silicon, nickel, etc.—are melted together in an electric furnace. This step usually involves 8 to 12 hours of intense heat. Next, the mixture is cast into one of several shapes, including blooms, billets, and slabs.

and then it is cast into solid form. After various forming steps, the steel is heat treated and then cleaned and polished to give it the desired finish. Next, it is packaged and sent to manufacturers, who weld and join the steel to produce the desired shapes.

 

Melting and casting

  • 1 The raw materials are first melted together in an electric furnace. This step usually requires 8 to 12 hours of intense heat. When the melting is finished, the molten steel is cast into semi-finished forms. These include blooms (rectangular shapes), billets (round or square shapes 1.5 inches or 3.8 centimeters in thickness), slabs, rods, and tube rounds.

Forming

  • 2 Next, the semi-finished steel goes through forming operations, beginning with hot rolling, in which the steel is heated and passed through huge rolls. Blooms and billets are formed into bar and wire, while slabs are formed into plate, strip, and sheet. Bars are available in all grades and come in rounds, squares, octagons, or hexagons 0.25 inch (.63 centimeter) in size. Wire is usually available up to 0.5 inch (1.27 centimeters) in diameter or size. Plate is more than 0.1875 inch (.47 centimeter) thick and over 10 inches (25.4 centimeters) wide. Strip is less than 0.185 inch (.47 centimeter) thick and less than 24 inches (61 centimeters) wide. Sheet is less than 0.1875 (.47 centimeter) thick and more than 24 (61 centimeters) wide.

Heat treatment

  • 3 After the stainless steel is formed, most types must go through an annealing step. Annealing is a heat treatment in which the steel is heated and cooled under controlled conditions to relieve internal stresses and soften the metal. Some steels are heat treated for higher strength. However, such a heat treatment—also known as age hardening —requires careful control, for even small changes from the recommended temperature, time, or cooling rate can seriously affect the properties. Lower aging temperatures produce high strength with low fracture toughness, while higher-temperature aging produces a lower strength, tougher material.Though the heating rate to reach the aging temperature (900 to 1000 degrees Fahrenheit or 482 to 537 degrees Celsius) does not effect the properties, the cooling rate does. A post-aging quenching (rapid cooling) treatment can increase the toughness without a significant loss in strength. One such process involves water quenching the material in a 35-degree Fahrenheit (1.6-degree Celsius) ice-water bath for a minimum of two hours.

Descaling

  • 4 Annealing causes a scale or build-up to form on the steel. The scale can be removed using several processes. One of the most common methods, pickling, uses a nitric-hydrofluoric acid bath to descale the steel. In another method, electrocleaning, an electric current is applied to the surface using a cathode and phosphoric acid, and the scale is removed. The annealing and descaling steps occur at different stages depending on the type of steel being worked. Bar and wire, for instance, go through further forming steps (more hot rolling, forging, or extruding) after the initial hot rolling before being annealed and descaled. Sheet and strip, on the other hand, go through an initial annealing and descaling step immediately after hot rolling. After cold rolling (passing through rolls at a relatively low temperature), which produces a further reduction in thickness, sheet and strip are annealed and descaled again. A final cold rolling step then prepares the steel for final processing.

Cutting

  • 5 Cutting operations are usually necessary to obtain the desired blank shape or size to trim the part to final size. Mechanical cutting is accomplished by a variety of methods, including straight shearing using guillotine knives, circle shearing using circular knives horizontally and vertically positioned, sawing using high speed steel blades, blanking, and nibbling. Blanking uses metal punches and dies to punch out the shape by shearing. Nibbling is a process of cutting by blanking out a series of overlapping holes and is ideally suited for irregular shapes.Stainless steel can also be cut using flame cutting, which involves a flame-fired torch using oxygen and propane in conjunction with iron powder. This method is clean and fast. Another cutting method is known as plasma jet cutting, in which an ionized gas column in conjunction with an electric arc through a small orifice makes the cut. The gas produces extremely high temperatures to melt the metal.

Finishing

  • 6 Surface finish is an important specification for stainless steel products and is critical in applications where appearance is also important. Certain surface finishes also make stainless steel easier to clean, which is obviously important for sanitary applications. A smooth surface as obtained by polishing also provides better corrosion resistance. On the other hand, rough finishes are often required for lubrication applications, as well as to facilitate further manufacturing steps.Surface finishes are the result of processes used in fabricating the various forms or are the result of further processing. There are a variety of methods used for finishing. A dull finish is produced by hot rolling, annealing, and descaling. A bright finish is obtained by first hot rolling and then cold rolling on polished rolls. A highly reflective finish is produced by cold rolling in combination with annealing in a controlled atmosphere furnace, by grinding with abrasives, or by buffing a finely ground surface. A mirror finish is produced by polishing with progressively finer abrasives, followed by extensive buffing. For grinding or polishing, grinding wheels or abrasive belts are normally used. Buffing uses cloth wheels in combination with cutting compounds containing very fine abrasive particles in bar or stick forms. Other finishing methods include tumbling, which forces
    The initial steel shapes—blooms, billets, slabs, etc.—are hot rolled into bar, wire, sheet, strip, and plate. Depending on the form, the steel then undergoes further rolling steps (both hot and cold rolling), heat treatment (annealing), descaling Ito remove buildup), and polishing to produce the finished stainless steel. The steel is then sent the end user.

    movement of a tumbling material against surfaces of parts, dry etching (sandblasting), wet etching using acid solutions, and surface dulling. The latter uses sandblasting, wire brushing, or pickling techniques.

 

Alloy Steel Manufacturer Pipe In Mumbai | Maha Bhairav Stainless Steel

Alloy Steel Manufacturer Pipe In Mumbai | Maha Bhairav Stainless Steel

Alloy Steel Pipe Fittings Manufacturer in India, Alloy Steel Pipe Fittings Suppliers, ASTM A234 Wpb, ASTM A234 Fittings

ASTM A234 Wp11 Fittings manufacturers in India, Alloy Steel Pipe Fittings exporters in India, ASTM A234 Gr Wpb, ASTM A234 Wp11 Fittings, ASTM A234 Weld Fittings, ASTM A234 Socket Weld Fittings

A234 Fittings, A234 Gr Wpb manufacturers, Alloy Steel Buttweld Fittings Suppliers, ASTM A234 Wp11, ASTM A234 Wp11 Cl2, ASTM A234 Grade Wp11, ASTM A234 Wpb Pipe Fittings, A234 Material suppliers

Alloy Steel Manufacturer Pipe In Mumbai | Maha Bhairav Stainless Steel
Alloy Steel Manufacturer Pipe In Mumbai | Maha Bhairav Stainless Steel
Alloy Steel Pipe Fittings Manufacturer in india

ASTM A234 Wpb, ASTM A234 Gr Wpb, ASTM A234 Fittings Manufacturers in India, Alloy Steel Pipe Fittings Manufacturers,
Call: +91-022-66109829 | Send Mail: mahabhairavstainless@gmail.com

An ISO 9001:2008 Certified Company, Maha Bhairav Stainless Steel is one of the leading Alloy Steel Pipe Fittings Manufacturers, engaged in the manufacture and distribution of ASTM A234 WP11 Elbow, ASTM A234 WP11 Tee suppliers in India, ASTM A234 WP11 Reducer, ASTM A234 WP11 Pipe Bend, ASTM A234 WP11 Long Radius Bend, ASTM A234 WP11 Lateral Tee manufacturers, alloy steel galvanized pipe fittings schedule 40, Alloy Steel Pipe Fittings Manufacturers, ASTM A234 WP11 Buttweld Fittings manufacturer, ASTM A234 WP11 Weld Fittings suppliers, alloy steel galvanized pipe fittings manufacturers

  •  Alloy Steel Pipe Fittings Specification
  •  What is Alloy Steel Pipe Fittings?
  •  ASTM A234 WP11 Cross Fitting
  •  ASTM A234 WP11 Reducing Cross Fitting
  •  ASTM A234 WP11 180° SR Return Bend
  •  ASTM A234 WP11 Pipe Bend / Piggable Bend
  •  ASTM A234 WP11 Long Radius Bend
  •  ASTM A234 WP11 Couplings
  •  ASTM A234 WP11 Pipe Nipples
  •  ASTM A234 WP11 Elbows
  •  ASTM A234 WP11 Reducing Elbows
  •  ASTM A234 WP11 45° Elbows
  •  ASTM A234 WP11 Tee fitting
  •  ASTM A234 WP11 Forged /Plate Cut Rings
  •  ASTM A234 WP11 180° LR Return Bend
  •  ASTM A234 WP11 Forged / Plate Circles
  •  ASTM A234 WP11 Lateral
  •  ASTM A234 WP11 Reducers
  •  ASTM A234 WP11 Stub Ends
  •  ASTM A234 WP11 End Caps
  •  Alloy Steel Pipe Fittings Price List in India

For Stainless Steel Pipe Manufacturers in Mumbai Contact Maha Bhairav Stainless Steel

Address : 20, 1/22, Bhabha Bldg, Nr. Reliance Hospital, 13th khetwadi Lane Mumbai 400004

Telephone: 022-66109829

Mobile : +91 90296 37012

Mail:mahabhairavstainless@gmail.com

Website : www.mbsindia.in

Working Hours: Monday—Saturday: 9:30 AM–7:30 PM

Stainless Steel Round Bar | Maha Bhairav Stainless Steel In Mumbai

Stainless Steel Round Bar In Mumbai | Maha Bhairav Stainless Steel

Stainless Steel Round Bar | Maha Bhairav Stainless Steel In Mumbai

Important Metal Drilling Tips to Remember

For Stainless Steel Round Bar Contact Maha Bhairav Stainless Steel In Mumbai

Many applications, usually involving either mounting parts or routing wiring and other materials, require holes to be drilled or punched into sheet metal. As with any other typical fabrication task, there isn’t always a right or wrong way to do the job. But, sometimes there is a better way. 

If possible, use a vise to secure the metal you’re going to drill. If that’s not possible, you need to have some means of keeping the metal stable so that it won’t move, as you’ll need both hands to operate the drill properly.

Slowly pull the trigger until the bit gains rotational speed being careful to keep it on target. Ultimately, the drill bit will win the contest and you’ll have bored that hole.

Switch bits and begin again if needed to finish off the final hole.  Add more lubrication often.  Stainless does not conduct hear well so the tip of the “drill bit” will get very hot, very quickly.

When drilling metal, the surface is often slippery. There’s a good chance your drill bit might slip off on your first try, leaving a big scratch and making you angrily throw away your drilling machine. In order to prevent this, first use a sharp object to make a dimple.

When the heat stays in the drill, the tool itself will begin to break down. In high-speed steel (HSS) drills, this heat will cause the tool to lose its hardness. In solid-carbide drills, microcracks can form on the cutting edges, which will eventually cause the drill to fail.

Run out is when the drill bit does not spin perfectly on the axis. Usually its the result of the drill bit being slightly crooked relative to the spindle so the longer the drill bit or the farther out in the chuck it held, the worse the run out becomes. 

Every drill press has some degree of running out. High-quality drill presses generally have less run out on average than cheap drill presses. Excess runs out shortens the life of your drill bits and causes oversized or out of round holes.

You’ll achieve a much more accurate hole when metal drilling if you punch the hole first. This eliminates the possibility of the drill slipping on the metal, putting the hole in the wrong place.

The punched hole doesn’t need to be large. It just needs to be big enough for the tip of the drill. This will act as a guide and will help ensure that you have a square hole.

Once the hole centers are marked with ink or scribed crosshairs, use a center punch to strike each location. The dimples left by the center punch serve to guide drill bits and punch tips to prevent them from walking or wandering across the sheet metal surface.

Much of the time you need to drill slowly, as this gives more control and allows you to hold the drill more steadily. Because it’s easy for metal surfaces to buckle, the control is important.

As a general rule, you should never go faster than the middle speed when metal drilling. Going more slowly is also safer as the drill is less likely to slip and cause an injury.

Never ever hold a sheet-metal workpiece in your hands when drilling, and always clamp it down when you can. When setting up clamps or hold-downs, anticipate that a drill bit will catch and grab the workpiece.

And adjust your clamps to ensure that the metal cannot spin. What do you get when spinning sheet metal meets human flesh? A bad day if you’re lucky, a trip to the hospital if you’re not.

Knowing the correct bits to use when metal drilling will make the job a great deal easier. For soft metals, you should ideally use a step drill bit or a cone drill bit for the best results.

Both of these allow you to drill to different diameters; it all depends on how deep you drill. Where you’re not using one of these types of drill bits, start with a thin bit and work up to larger ones to increase the hole’s diameter.

Cooling is very important, especially when drilling hard metals like stainless steel since one property of stainless steel is that it gets harder when heated.

Drilling metal gets both the drill bit and the material extremely hot If you’re not cooling, the material will harden and drilling will get tougher and tougher. By using special cutting oil, you’ll be cooling both material and drill.

You should never drill metal without having proper safety equipment. Safety goggles, not glasses, are vital to stop small slivers of metal from entering your eyes; the glasses don’t offer adequate protection.

Not only is a backer board a good idea for reducing tear out, but it helps guide a hole saw’s pilot bit, keeping the tool aligned. When using larger saws on tougher material.

Cutting fluid can help make the job go easier and prolong the saw’s life. Manufacturers will usually provide a table of recommended RPMs according to hole size and the material being cut.

Gloves also help to protect your hands, although they’re not always compatible with the kind of fine control you need when metal drilling. Whenever possible, you should wear them.

To use a portable hand punch, first select and install a matching punch and die set. Align the point of the punch over a soon-to-be-hole’s center, and squeeze the tool’s handles together.

Once the punch clears through the sheet, a small slug will drop free and then the tool can be removed. Punched holes have relatively clean edges that require little to no finishing.

Rigidity in this application is the strength of the drill press to hold the drill bit and the shoe in the same position relative to each other. A good illustration of the lack of rigidity is when a drill bit “walks”. Poor rigidity makes run out worse, makes the setup prone to chatter, and makes it difficult to drill a hole where you want to drill a hole.

Manufacturer of Pipe Fittings In Mumbai | Maha Bhairav Stainless Steel

Manufacturer of Pipe Fittings In Mumbai | Maha Bhairav Stainless Steel

Manufacturer of Pipe Fittings In Mumbai | Maha Bhairav Stainless Steel

Stainless Steel Pipe Types

For Manufacturer of Pipe Fittings In Mumbai Contact Maha Bhairav Stainless Steel

he most common pipe screens are made of metal mesh, cut into small circles, which can be bent to fit the inside of your bowl. The idea is that while smoke and fine ashfall through, large chunks are held in place.

Using a pipe screen keeps your pipe a cleaner, but more importantly, stops large clumps of ash from being pull through to your mouth.

First, practice handling the gun without actually welding. Rest its barrel in one hand, and support that hand on the table. The other hand operates the gun’s trigger.

Stand in a comfortable position and move the gun steadily over the work surface. Adjust your posture and gun movement so that they feel natural.

Metal inert gas welding (MIG) is also known as wire welding or gas metal arc welding (GMAW). MIG welding is usually the starting point for novice welders.

The process uses a welding wire, which is the filler rod, as an electrode; the wire is used to complete an electric circuit that passes through the two objects being welded together.

Pulling the wire back slightly creates an arc of electricity that is super-hot, and this arc melts the wire and partially melts the two metals being joined. The place where they all melt mixes together and cools, forming a solid joint with a bead running along the seam.

Carbon steel is much more durable and stronger than other varieties of steel, which makes it suitable for making pipe fittings.

Also known as plain-carbon steel, carbon steel is a malleable and iron-based metal, containing mainly carbon and small amounts of manganese and other elements.

Twist on a pipe or fitting by hand. If it does not turn easily, the joint is not straight and the threads are crossed. Back up and try again. Then firmly tighten each pipe or fitting using a 14-inch pipe wrench. You may need a second wrench to hold the adjacent piece steady.

Metal pipe screens come in different sizes, usually ranging from 0.5” to 1”. Bigger bowls need bigger screens. Since metal screens are so malleable.

You must simply press the mesh disc into the pipe until it fits flush with the bottom of the bowl. Be sure that the screen covers the hole. Metal and wood pipes typically have holes in the side, while glass bowls have holes on the bottom.

Next, grind or file a slight bevel along the edges you’re welding. This ensures the weld penetrates as deeply as possible and countersinks it so you can grind it flush. Don’t overdo it or you’ll burn through the metal when you weld.

Again there are some butt-weld carbon fittings, which feature beveled edges and form a channel of lesser depth for the bead of weld that fixes the piece together.

Butt-weld fittings are mainly used to join sections of pipe where permanent and welded connections are required. Elbows, reducers, tees, etc are made of butt-weld steel fittings.

During installation, it’s important to make sure the pipe isn’t fit too loosely or too tightly. A loose pipe will sag or bend, which can lead to wear and broken pieces.

The recommended spacing between the pipe and clamp often depends on the pipe’s weight. Also, it’s smart to remember piping can expand and contract as it heats up or cools down.

Tack the pieces together at a couple of places along each joint. Check again for square corners; if anything shifts and puts the assembly out of square, grind away the tack weld, reposition the parts, and try again.

Hot cracking is caused by low melting materials such as metallic compounds of sulfur and phosphorous which tend to penetrate grain boundaries.

Now you know how to use pipe screens and maintain them for the best performance. You ordered some quality glass pipe screens from BadassGlass, too, but in the meantime, you still need a screen! It’s time to get crafty with some pipe screen solutions.

When you’re suspending piping, it can be nerve-wracking. After all, if fasteners fail, structures could come crashing down.

A key way to avoid failed fittings is to make sure you’re precise when you tighten the nuts to the bolts. Too tight, and you could strip them. Too loose, and clamps could come undone when pipes vibrate. 

Once the tee-fitting for the new line is installed, add a nipple and slip on the nut for the union, checking that the threads are toward the joint. Apply tape and install half of the union. Set the second half of the union in place and measure for the final section of the pipe.

Fittings made of carbon steel are used in pipe systems that carry liquids or gases, such as oil, water, natural gas, or steam.

Apart from that, carbon steel fittings are highly demanded in construction and maintenance activity in the residential construction, commercial construction, electric power generation, petroleum refining, shipbuilding, and other industrial-use sectors.

In highly-specific aircraft applications, chromium and nickel type stainless steel is used because of their heat and corrosion-resistance.

Found in applications that require high-strength, stainless steel aircraft tubing can be work-hardened or welded, although work-hardened pieces shouldn’t be used with some kinds of corrosive substances. Low-carbon types of stainless steel are a common choice for welded parts.