What is a buttweld pipe fitting?

Buttweld Carbon Steel and Stainless Steel Pipe Fittings


Buttweld pipe fittings comprises of long radius elbow, concentric reducer, eccentric reducers and Tees etc. Butt weld stainless steel and carbon steel fittings are an important part of industrial piping system to change direction, branch off or to mechanically join equipment to the system. Buttweld fittings are sold in nominal pipe sizes with specified pipe schedule. BW fitting’s dimensions and tolerances are defined as per ASME standard B16.9.

Butt welded Pipe fittings such as carbon steel and stainless steel offer many advantages compared to threaded and socketweld fittings. The later are only available up to 4-inch nominal size whereas butt weld fittings are available in sizes from ½” to 72”. Some of the benefits of weld fittings are;

  • Welded connection offers more robust connection
  • Continuous metal structure adds to the strength of the piping system
  • Butt-weld fittings with matching pipe schedules, offers seamless flow inside the pipe. A full penetration weld and properly fitted LR 90 Elbow, Reducer, Concentric reducer etc. offers gradual transition via welded pipe fitting.

 All buttweld pipe fittings have beveled ends as per ASME B16.25 standard. This helps create full penetration weld without any extra preparation needed for the butt weld fitting.

Butt weld pipe fittings are most commonly available in carbon steel, stainless steel, nickel alloy, aluminum and high yield material. High yield butt weld carbon steel pipe fittings are available in A234-WPB, A234-WPC, A420-WPL6, Y-52, Y-60, Y-65, Y-70.  All WPL6 pipe fittings are annealed and are NACE MR0157 and NACE MR0103 compatible.

Trupply is one of the largest distributors of pipe flanges and fittings. We handle hundreds of requests every day. Some of the common misconceptions people have are;

  • They call BW fittings in A105 material: Most common carbon steel buttweld fitting material is A234WPB. It is equivalent to A105 flanges, however there is no such thing as A105 or A106 butt weld fitting
  • They request “Normalized” butt weld fittings: This is also a misconception since flanges are available in A105 and A105 N, where N stands for normalized. However, there is no such thing as A234WPBN. Some manufactures normalize their butt weld fittings as a standard procedure and such request require checking individual MTRs to verify if normalized heat treating process was done. Customer needing “normalized” butt weld fittings should request WPL6 fittings which are high yield and are normalized as a standard procedure
  • They forget to mention pipe schedule: Buttweld fittings are sold as per pipe size but pipe schedule must be specified to match the ID of the fitting to the ID of the pipe. If no schedule is mentioned, we will assume a standard wall is requested.
  • Differentiate between SCH 40 and True Schedule 40: Pipe fittings 12 inch or larger require specifying if fitting is standard wall (most commonly referred to sch 40) or a true schedule 40 is required. This is needed since schedule 40 do NOT correspond to standard wall for pipe sizes 12” and bigger. A true sch 40 will be thicker than standard wall for pipe fittings 12” or bigger.
  • Stainless Steel butt weld pipe fittings are available in schedule 10s: Customer should specify if they need standard wall (sch 40s) or a thinner wall sch 10s stainless steel butt weld fitting. See pipe chart to clarify how the wall thickness for stainless steel pipes correlated to different pipe schedules.
  • They forget to mention welded or seamless butt weld fitting: Butt weld fittings are available in both welded and seamless configuration. A seamless butt weld carbon steel or stainless steel fitting is made of seamless pipe and is generally more expenses. Seamless pipe fitting is NOT common in sizes bigger than 12”. Welded pipe fittings are made of ERW welded carbon steel or stainless steel pipe. They are available in sizes ½” to 72” and are more affordable than seamless fittings.

What does Short Radius (SR) or Long Radius (LR) means?

You will often hear SR45 elbow or LR45 elbow. The 45 or 90 refers to the angle of the bend for butt weld fitting to change the direction of flow. A long radius elbow (LR 90 Elbow or LR 45 elbow) will have a pipe bend that will be 1.5 times the size of the pipe. So, a 6 inch LR 90 has bending radius that is 1.5 x nominal pipe size. A short radius elbow (SR45 or SR90) has pipe bend that is equal to the size of fitting so a 6” SR 45 has bending radius that is 6” nominal pipe size.

What is a 3R or 3D elbow pipe fitting?

First, the term 3R or 3D are used synonymously. A 3R butt weld elbow has bending radius that is 3 times the nominal pipe size. A 3R elbow is smoother than SR or LR fitting.

 A concentric reducer buttweld fitting is symmetrical: both ends are aligned along the center.

An eccentric reducer butt weld fitting is not symmetrical: ends are off center of one another.

 Trupply is an authorized distributor of Weldbend which is one of the largest manufacturer of domestic butt weld fittings and flanges. Trupply also offers approved and unapproved import pipe fittings for more cost-conscious customers. All butt weld fittings are provided material test reports (MTR).

What Is Alloy Steel?

Everyone has for sure heard of stainless steel before. It is the best material for cookware like pots and pans. But do you know what stainless steel is made up of? It is a mixture of iron, chromium, silicon, carbon and manganese (all added in different portions). Any mixture of metals is known as an alloy. Another example of an alloy that we will be discussing today is an alloy steel. It is a type of steel which is mixed with different levels of one or more of the following elements: manganese, silicon, nickel, titanium, copper, chromium and aluminum. The difference between stainless steel and alloy steel is that alloy steel is made up of elements such as nickel and copper.

  • Manganese strengthens the steel at higher temperatures as it eliminates the formation of unneeded compounds such as iron sulphide.
  • Nickel and copper increase the strength and hardness of the steel in addition to maintaining resistance to corrosion and oxidization.
  • Copper is added in very small amounts, but it also adds to the strength and corrosion resistance of the steel.
  • Aluminium limits the formation and growth of any impurities such as austenite grains.
  • Chromium is a key alloying element which acts a significant corrosion and wear & tear resistant. It also helps the steel harden as it has a positive response to heat treatments.

Let’s look at some properties of alloy steel: Thermal conductivity (the ability of a material to conduct heat) of alloy steel is around 26-48.6 W/m-k which is considered low. As most alloy steels contain titanium and nickel, which have low thermal conductivity. Tensile strength of alloy steels is between 758-1882 MPa which is higher than the tensile strength of stainless steel. Steel is mixed with the other elements to enhance their mechanical properties, hardening the steel making the alloy steel more durable and resistant to corrosion.

There are two types of alloy steel: high & low alloy steel. This depends on the percentage of the alloying elements; high alloy steel has a higher percentage. Low alloy steel usually has 1-5% of alloying elements, making it more suitable for applications which require mechanical properties. The most common example of high alloy steel is stainless steel. The level of chromium varies, giving rise to different types of stainless steel. There are at least 12% of chromium and it can increase to 27% in some steels; depending on their use. Fun fact, did you know that stainless steel can remove odors from the surface of the skin! Low alloy steel has increased hardness and wear & tear resistance, but it doesn’t have the same tensile strength as high alloy steel. High alloy steel can also resist wear and tear even under high temperatures.

What Are The Uses of Alloy Steel?

Alloy steel is one of the common steels that are used frequently. There is a wide range of applications of alloy steel including:

  1. Pipes used in energy-related applications such as oil and gas drilling. They have the ability to withstand the stress and pressure that will be applied in those machine parts.
  2. Bearings are made from alloy steel as it gives them strength to resist any cracking or rolling contact fatigue.
  3. Architecture uses alloy steel to avoid corrosion, high alloy steel is used in construction.
  4. Railways, security safes and armour plating are other common uses of alloy steel. Manganese and Nickel found in alloy steel are both mainly responsible for this application.
  5. Household items such as the cookware, cutlery, counter-tops, etc. are made from stainless steel, as they are easy to shape with high temperatures.
  6. Artwork has integrated steel alloys as a medium for fine art. Artists use it as the base of the canvas to give the art piece shine.

Alloy steel is used in nearly all industries. In addition to the uses listed above, steel can be used in transportation, housing, energy and machinery.

Alloy Steel VS Carbon Steel

“Persistence is to the character of man as carbon is to steel”, Napoleon Hill.


Another type of steel to introduce in this article is carbon steel. The main element in this type of steel is not iron, it is carbon. The higher the amount of carbon, the easier you can harden the metal as you heat it. There is also low, medium and high carbon steel. In low carbon steel, the carbon content doesn’t exceed 0.25% mixed with 0.4% manganese. This is the cheapest carbon steel, yet they can be used in a lot of applications as they can be easily shaped. Medium carbon steel is made up of a maximum of 0.54% carbon and 1.65% of manganese. The higher carbon content makes this type of steel stronger in addition to giving it resistance to wear. This, however, decreases their ability to be shaped easily. While high carbon steel has a carbon content that can reach 0.9%.

This type of carbon steel is the strongest and hardest to shape, therefore it is only used when it really is needed. Some of its applications are springs, wires and knives. If you are a chemistry lover, you would know that various forms of carbon are very strong. Diamonds, which are the strongest material on earth, is actually made from carbon. So, that might explain why when carbon is mixed with iron, it is enough on its own with no further elements to strengthen it.

Now that we have established a good base for what is carbon steel, let’s dive into the differences between carbon steel and alloy steel. Their composition is very different from each other. Carbon steel is made from a maximum of 2.1% of carbon (very high carbon steel) and iron. Any other element found in this type of steel is seen as an impurity.

However, alloy steel wouldn’t be alloy without the additional elements added to enhance their properties. This is what makes the alloy steel more resistant to corrosion, has higher tensile strength and hardness. The higher the alloying elements content, the more-used the alloy steel is. On the other hand, the higher the carbon content, the harder and less usable the steel becomes. Nonetheless, carbon steel scores point in the price category. Carbon steel is relatively cheaper, especially as the carbon content is lower. Alloy steel can get very expensive due to the alloying elements added and their amount.

How Much Is It?

First, let’s consider the pros and cons of alloy steels before you make your purchase. Alloy steels have a high strength-to-weight ratio. They also have low densities, decreasing their weight so they are able to withstand stress and pressure. With the aid of heat, they can be shaped in any required form which increases their application options. On the other hand, when compared to stainless steel, alloy steel have a lower strength overall (especially at higher temperatures) as well as a higher chance of getting corroded.

When you are looking at alloy steel, there are a few things to consider: the shape of the alloy steel, thickness, width and length of the steel pipes. As well as the pipe grade, which is the percentage of alloying elements. The top two common places that supply alloy steel are India and China. The United States comes in third place. According to online global trading websites (such as Alibaba.com and made-in-china), the price of alloy steel starts at $450 and can reach $2800 per tonne. One tonne is the minimum weight to order.

In conclusion, everywhere you look you will find steel in any form. It has been integrated into almost every aspect of life. Depending on the elements that iron is mixed with, different types of steel are formed. Each type of steel, whether it is alloy, carbon or stainless steel have their own set of properties that make them more suitable for specific applications. But the properties that they all share in general is their strength, hardness and their ability to be shaped into the desired form. The uses of steel varies widely from cookware to industries, construction and farming.

What conditions should flanges meet for the gauge manufacturer?


Do you or your customer need to install a gauge in a pipe? If so, you can realize the connections in different ways. But the best way to do so is by using flanges. Why exactly? And what requirements do the flanges and their manufacturer have to meet? We will go over the basics below. You can find all the necessary details in our checklist.


Download our quality checklist

The reason why it is best to use flanges when installing a measuring instrument is the ease of maintenance afterwards. If the instrument is ever in need of replacement, you can easily remove it and fit a new one in its stead.

Flanges are therefore often used to integrate flow and pressure gauges or temperature probes into the pipework or to place a level gauge on a vessel. This is the case for numerous applications in all kinds of sectors, from the (petro) chemical to the food industry. For this purpose, the flanges must meet several crucial conditions.

Extreme precision is required

If your own company or customer needs flanges to connect a level gauge or gauge glass, you can often use standard flanges, with standard dimensions and tolerances. Here, the tolerated deviations do not affect the measurement result.

However, when you need to monitor pressure, flow or temperature, you will have to be able to measure even more precisely. This means that the flanges have to be made even more accurately, with lower margins for error.

Customization is often needed

Can only minimal deviations of the flange be allowed? Then there is a good chance that your flanges not only need to be extremely precise but also made to measure.

The connection of these flanges is standard so that they fit perfectly on the already installed standard flanges of the pipework, with the bolts precisely in the same places. However, the inner work needs to be exactly made-to-measure.

In quality material

This high-precision, made-to-measure flange must always be manufactured in high-quality material. After all, the instrument is a crucial part of the piping work. A part that must at all times provide very accurate measurements, regardless of the dynamic influences to which it is subject. Ideally also during a long life span.

As a result, the measuring instrument must be made of the right material, of the right quality. If this is not the case, the instrument will generate incorrect measurement results due to corrosion after a few months to years.

Quality ensures safety

One of the reasons why the quality of the flanges is so essential is safety in the factory. Wherever gauges are installed in pipes or attached to vessels, there is a potential risk of leakage. Not so much if water runs through the pipes, under low pressure, but definitely when sulfuric acid flows through, under high pressure. Then nothing may go wrong.

As long as the flanges are made precisely according to your specifications, technical drawing and supplied standards, they will reduce that risk of leakage.

How can you be sure of all this?

How can you be sure that the flanges for your measuring instruments are guaranteed to remain within the minimum tolerated size deviations? Or that their interior fits the instrument’s inner diameter perfectly, minimizing the risk of erroneous measurements? And that the flanges are made in the right quality material?

With the required tests

On the one hand, of course, by having the necessary tests carried out, to check that the material of the flanges indeed meets the standards, to obtain the necessary certificates. The more critical the application, the further you take it. The test can be carried out by the manufacturer himself, followed by a second test by an external inspection organization.

With a thorough audit

The gauge builder can also audit the manufacturer himself. He will then be able to check the internal quality control system and place a test order to check whether the made flanges exactly meet his requirements. A manufacturer who pursues quality will gladly assist in this process.

With the insights from our checklist

We spoke to you about the importance of precise dimensions, customization and quality material. To make sure that flanges for gauges meet these requirements, you can have them extensively tested and audit the manufacturer. But even before you order, you need to know what precision, quality and customization entail and how to ensure them.

Read the answers in our quality checklist

Which manufacturer can supply you with these flanges?

Extremely accurate in terms of dimensions, precisely tailored to the interior of your measuring instrument, in guaranteed quality material, and also in small quantities, because you only need two flanges per instrument? Also quickly delivered, because you don’t have the custom made flanges in stock?

These are precisely the assets that make Anita Steel & Metals unique on the market. Not only do we produce extremely reliable flanges in all kinds of special shapes and materials according to your technical plan, but we also do it speedily. On average, we deliver worldwide within one to two weeks. This swiftness is due to our extensive stock of semi-finished products and our flexible production, fully focused on fast top quality.

Contact us today



Alloy Steel EN19 / AISI 4140 / 42CRMO4 Grade Plate

EN19 Steel Plate, 4140 Sheet, ASTM A829 Alloy Structural Steel Plates, AS 42CrMo4 CR Sheets, AISI 4140 Sheet, SCM440 Alloy Steel Sheet, 4140 Alloy Steel Plate Manufacturers in India, Alloy Steel DIN 1.7225 Hot Rolled Plate Stockist, Chromium Molybdenum Alloy Steel 4140 Sheets, Alloy Steel EN19 Plate Supplier in Mumbai, India.

EN19 Steel Plate

The EN19 / 4140 GRADE PLATES that we offer exactly match the desirable plates of such kinds. It is of the best quality and endowed with high tensile strength. We are working in full throttle to make it available to the length and breadth of the country and abroad. We are one of the eminent Exporters and Suppliers of EN19 Grade Steel Plate from Mumbai, India.

EN19 / 4140 GRADE PLATE Steel is a high quality Quenched and Tempered Alloy Structural steel, It belong to the high quality medium carbon, Oil Quenched & Tempered Hardenss is 28-34 HRC. EN19 steel annealing delivery hardness less than 250HB.

The alloy steel sheet and plates are induced for the use in the machine tool and equipment. These have the great formability, workability and weldability feature. So it is useful with low machining costs using the conventional machines. The alloy steel grade is commonly supplied with heat treatment and testing. Furthermore, the material goes for processing in the top mills and after it, these are annealed. Steel grade is both magnetic and non-magnetic in nature. Our inventory has sheet and plate in a variety of specification, standards, dimensions, thickness, and designations.

ASTM A829 AISI 4140 Steel Plate, Alloy Steel EN19 Sheet, Alloy Steel 4140 Plate, EN19 Sheet Exporter, Chrome Moly 4140 Steel Plate, 42CrMo4 Steel Plate and Sheet, EN19 709M40 Alloy Steel HR Plate, 4140 Plate, EN19 / 4140 Hot Rolled Steel Plate, Alloy Steel SCM440 Cold Rolled Sheet, AISI 4140 Plates Manufacturers in Mumbai, India.

42CrMo4 Steel Plate

Standard Specification For Alloy Steel EN19 / 4140 Sheet Plate

Standard : AISI, ASTM, BS, DIN, GB,JIS

Width : 1000mm-4500mm

Thickness : 5mm-150mm

Length: 3000mm-18000mm

Supply Condition: Normalized Rolling, As Rolled, Furnace Normalizing, Vacuum Degassing, Simulated Post-Weld Heat Treatment or as per customer requirement.

Form : Coils, Foils, Rolls, Plain Sheet, Shim Sheet, Perforated Sheet, Chequered Plate, Strip, Flats, Blank, Circle, Ring etc.

 EN19 / 4140 Alloy Steel Sheet Plate Equivalent Grades

AISI

DIN

AFNOR

BS

UNI

GB

GOST

ISO

4140

42CrMo4

42CD4

708M40

42CrMo4

42CrMo

35KHV/38KHV

42CrMo4

 

Different Types of EN19 / 4140 Sheet Plate

  • EN19 Steel Sheet
  • Chromium Molybdenum Alloy Steel EN19 Plates
  • AISI 4140 Steel Sheet
  • Chromium Molybdenum Alloy Steel 4140 Plate
  • EN19 Hot Rolled Alloy Steel Plate
  • Alloy Steel 1.7225 Sheet Supplier
  • EN19 Plate Exporter
  • Alloy Steel 42CrMo4 Sheet
  • AISI 4140 Alloy Steel Rolls
  • SCM440 Alloy Steel Plate Manufacturer
  • Alloy Steel EN19 / 4140 CR Sheet
  • Alloy Steel EN 1.7225 HR Plate
  • EN19 / 4140 Alloy Steel Rings
  • Alloy Steel Foils EN19 / 4140
  • Alloy Steel EN19 – 709M40 Circle
  • Alloy Steel SCM440 Sheet
  • Alloy Steel 42CrMo4 Plate

 Chemical Composition of EN19 / AISI 4140 Sheet Plate

C%

Si%

Mn%

P%

S%

Cr%

Mo%

0.35-0.45

0.10-0.35

0.50-0.80

0.035 Max

0.050 Max

0.9-1.50

0.20-0.40

 

Mechanical Properties of EN19 / 4140 Sheet Plate

Heat Treatment

Size mm

Tensile Strength Rm N/mm²

Yield Stress Re N/mm²

Elongation a% on 5.665ÖSo

Impact Izod J

Impact KCV J

Proof Stress rp0.2

Hardness HB

R

>100≤250

700/850

495

15

34

28

480

201/225

S

>150≤250

775/925

555

13

27

22

540

223/277

S

>63≤150

775/925

585

15

54

50

570

223/277

T

>29≤100

850/1000

680

13

54

50

655

248/302

U

>13≤63

925/1075

755

12

47

42

740

269/331

V

>6≤29

1000/1150

850

12

47

42

835

293/352

W

>6≤19

1075/1225

940

12

40

35

925

311/375


  • Related Specifications ASTM A29/A29M DIN EN 10083/3 JIS G4053 GB GB/T 3077
  • AISI 4140 FORGE Steel Mechanical Properties and Physical properties
  • Density of EN19 Alloy steel material: 7.85kg/cm3
  • Engineering Alloy Steel material EN19 yield strength: 555-755 N/mm²
  • Tensile strength of EN19 Engineering steel: 775-1075 N/mm²
  • Engineering steel material EN19 hardness in HRC:
  • Flame or induction hardening can give a case hardness of 50 HRC or higher.
  • EN19 equivalent material with AISI 4140, DIN 42CrMo4 EN 1.7225, GB 42CrMo, JIS SCM440C alloy engineering steel

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