ASTM A182 Flange | Alloy & Stainless Steel Forged Flange - Sunny Steel Industrial Pipe Product

ASTM A182 Flange

Alloy & Stainless Steel Forged Flange

ASTM A182 is the standard specification for forged or rolled alloy and stainless steel pipe flanges, forged fittings, and valves used in high-temperature service.

ASTM A182 Flanges are essential components in various piping systems, providing reliable connections in high-temperature and high-pressure environments. Their compliance with ASTM standards, along with their durability and versatility, makes them a preferred choice across multiple industries, including oil and gas, power generation, and chemical processing.

Key Features of ASTM A182 Flanges

ASTM A182 Flanges are forged steel flanges that conform to the ASTM A182/A182M standard, specifically designed for high-temperature and high-pressure applications. These flanges are used in various piping systems to connect pipes, valves, pumps, and other equipment, ensuring a secure and leak-proof joint.

Common Applications of ASTM A182 Flanges

Advantages of ASTM A182 Flanges

Standards and Specifications

ASTM A182/ASME SA182 covers flanges that are suitable for use with pressure-vessel, boiler, and other high-temperature and high-pressure applications. The flanges covered by this specification are available in various grades of alloy steel, including chromium-molybdenum steel (such as F11, F22, and F91), and austenitic stainless steel (such as F304, F316, and F321).

The ASTM A182 flanges are manufactured in compliance with the standards set by ASME B16.5, which specifies the dimensions, tolerances, materials, marking, and testing requirements for steel pipe flanges and flanged fittings. The Class 150 Flanges specified in ASTM A182/ASME SA182 are designed to withstand pressures up to 285 psi at temperatures ranging from -20°F to 100°F.

ASTM A182 flanges are forged or rolled pipe flanges made of alloy steel suitable for high-temperature and high-pressure applications. They are manufactured in compliance with ASME B16.5 and are available in various grades of alloy steel and austenitic stainless steel.

ASTM A182 standard specification is for forged and rolled alloy and stainless steel pipe flanges, fittings, valves and parts for high temperature service. Common grades of alloy steel is Grade F5, F9, F11, F22, stainless steel F304/L and F316/L.

Scope

The standard applies to forged low alloy steel and stainless steel pipe parts for use in pressure systems. These include flanges, fittings, valves and similar parts that meet specified size or size standards. And it includes several grades of low carbon alloy steel and ferritic, martensitic, austenitic and ferritic-austenitic stainless steels. So it should be selected according to the design and use requirements.

When additional tests or inspections are required, supplementary requirements are provided for use. When the purchaser has specified them individually in the order, and it can be used.

Common Grades~/h3>

Alloy grade: ASTM A182 F5, F9, F91, F92, F11, F12, F21, F22
Stainless steel grade: ASTM A182 F304, F304L, F316, F316L

Alloy Flange: ASTM A182 F11, F22

ASTM F11, F22 is the most use alloy steel grade in ASTM A182. 

Stainless Steel Flange: ASTM A182 F316

ASTM A182 F316 is most used for stainless steel flange, includes weld neck flange, slip on flange, blind flange, socket weld flange and etc.

Either alloy steel or stainless steel flange dimensions available for the OD up to 48 inch, class pressure from 150# to 2500#.

Units

This specification is expressed in inch-pounds and SI units.

Manufacture Types

For Low Alloy Ferritic Steels

Low alloy ferritic steels should be smelted in one of the following methods:
a. Open hearth furnaces
b. Electric furnaces
c. Basis -oxygen process (with the option of separate degassing and refining processes).

For Stainless Steel

Stainless steel should be smelted in one of the following ways:
a. Electric furnace (with separate deoxidation and refining (optional))
b. Vacuum furnace
c. One of the above, followed by vacuum or electroslag self-consumption remelting.
The discard should be removed sufficiently, so as to ensure the elimination of harmful shrinkage and excessive segregation.

Chemical Composition

Chemical heat analysis shall be performed and consistent with the chemical composition requirements of Table 1.

Grades that add lead, selenium or other elements to make the material easier machined, it should not be used.

It is not permissible to add any element that exceeds the corresponding material grade listed in Table 2 for the raw materials produced in accordance with a certain standard.

Except for nitrogen in stainless steel, the ordered grade shall not contain unspecified elements to the extent that the content meets the requirements of another grade, which have the specified element with the minimum required content.

ASTM 182 Flange chemical composition

C: The present grade F 5a (0.25 max carbon) previous to 1995 eas assigned the identification symbol F 5. Identification symbol F 5 in 1955 was assigned to the 0.15 max carbon grade to be consistent with ASTM soecification for other products such as pipe, tubing, bolting, welding fittings, and the like.

D: Applies to both heat and product analysises.

I: Grade F 321 shall have a titanium content of not less than five times the carbon content and not more than 0.70%.

Mechanical Properties

For the grade ordered as listed in Table 2, the mechanical properties of the material shall comply with the requirements.

Table 2:

ASTM 182 Flange mechanical properties

C: For sections over 5 in. [130 mm] in thickness, the minimum tensile strength shall be 70 ksi [485 MPa].

D: For sections over 5 in. [130 mm] in thickness, the minimum tensile strength shall be 65 ksi [450 MPa].

Tension Test

For low alloy steel, ferritic and martensitic stainless steel, one tension test shall be performed for each heat in each heat treatment charge.

When the heat treating cycle are the same and the furnace is controlled within ±25°F[±14℃]. And it is equipped with a recording pyrometer, so as to obtain a complete heat treatment record. However, only one tensile test is performed for each heat of each forging type and section size, rather than the per heating in each heat treatment charge.

Retreatment

If the results of the mechanical properties test do not meet the specified requirements,  and the forgings may be performed heat treatment again. Meanwhile the mechanical properties test should comply with requirement.

Nondestructive Test Requirements

For hollow forgings of grades F91, F92, F122 and F911, greater than or equal to NPS 4 (DIN 100). The inner surface of which cannot be inspected by magnetic particle or liquid penetration, the ultrasonic inspection shall be carried out in accordance with A388 / A388M.

If the inner surface is accessible, it shall be examined by the magnetic particle in accordance with regulation A275/A275M, or by the penetration test according to test method E165.

Main point of Manufacture

The material should be forged as close to the actual specified shape and size as possible.
Elbows, U-bends, tees, connecting tees and any type of flange should not be processed directly from bars.

Cylindrical shaped parts can be machined using forged or rolled solution annealed austenitic stainless steel without the need for additional thermal processing.

Cylindrical shaped low-alloy, martensite, ferrite and ferrite-austenitic stainless steel parts that less than or equal to NPS-4 [DN 100], may be machined using forged or rolled bars without additional hot processing.

Heat Treatment

Heat Treatment for Forgings

After hot working, and the forgings shall be cooled to a temperature less than 1000 °F [538 ℃] before heat treatment as specified in Heat treatment Table 3.

Table 3:

ASTM 182 heat treatment

A: Minimum unless temperature range is listed
B: Not applicable
E: Forged or rolled bar meeting the requirements of 7.5 shall be liquid quenched or rapid-cooled by other means in accordance with Specification A484/ A484M

Low-alloy steels, ferritic and martensitic stainless steels

Low-alloy steels, ferritic and martensitic stainless steels shall be heat-treated in accordance with table 3. When more than one heat treatment is listed (optional) for a grade in table 3, any one of these is acceptable. The choice of heat treatment should be determined by the manufacturer, unless otherwise specified in the order.

Liquid Quenching

Except for F1, F2 and F3 in 3.2.2, if the temperature of each grade in Table 3 is used with the consent of purchaser. So the liquid should be allowed to quench, then tempered.
Marking
Parts that are liquid quenched and tempered, and shall be marked with the letter ''QT''.

Grades F1, F2 and F12

In addition, grades F1, F2 and F12, Class 1 and 2 can be done a heat treatment with a minimum temperature of 1200°F, (650? after final cold or hot forming.

Austenitic and ferritic-austenitic stainless steels

Austenitic and ferritic-austenitic stainless steels shall be heat treated and liquid quenched in accordance with Table 3.

Time for Heat Treatment

Heat treatment of forgings can be carried out before machining.

Forged or Rolled Bar

Forged or rolled austenitic stainless steel rods for cylindrical shaped parts as specified in mechanical properties requirement. And the parts machined from bar without heat treatment after processing. It shall comply with annealing and quenching or rapid cooling requirements of A484 / A484M or this specification, and also allows for subsequent light cold drawing and straightening.

Surface Finish, Appearance and Corrosion Protection

Forgings and finished parts shall be free of scale and machined burrs that may interfere with installation, and other harmful defects as referred to in this standard. They shall have good processing quality, and the roughness of machined surfaces (except for special requirements) shall not exceed 250AA (arithmetic mean).

Welding Repair Requirements

ASTM 182 welding repair
ASTM 182 welding repair

ASTM A182 F304 Stainless Steel Flanges are components made from stainless steel alloy containing chromium and nickel. These components are usually circular in shape with an opening in the center, which is also known as a bore. The edges of this disc-shaped component have raised surfaces that mate with other similar components or pipes to create a secure connection between two pipes or other pieces of equipment. ASTM A182 F304 Stainless Steel Flanges are essential components that are used in a wide range of applications. From the automotive industry to construction, these flanges can be found in many places due to their durability and strength.

Applications of ASTM A182 F304 Stainless Steel Flanges

These types of flanges have several applications across various industries. For example, they can be found in the automotive industry, where they provide connections between exhaust systems and catalytic converters. In addition, these flanges can be found in industrial piping systems for transporting liquids such as oil or gas, as well as air conditioning systems and refrigeration units. Other common uses include water treatment plants, chemical plants, food processing facilities, and more.

Benefits of ASTM A182 F304 Stainless Steel Flanges

The primary benefit of using these types of flanges is their durability and strength compared to other types of metals, such as aluminum or copper. These materials can handle higher temperatures without corroding or becoming brittle like aluminum or copper would do when exposed to extreme temperatures or pressures. In addition to their strength and durability, these materials also resist corrosion better than other materials, making them ideal for environments where there is a high risk of corrosion, such as marine settings or near coastal areas. Also, they have excellent heat transfer properties, which makes them ideal for transferring heat from one component to another while still maintaining their structural integrity over time.

There are several types of Stainless Steel 304 Flanges available, including slip-on welded-neck socket welded threaded reducing, and lap joint varieties, among others. All different types serve different purposes depending on the specific application. ASTM A182 F304 Stainless Steel Flange offers a variety of benefits, including superior strength and durability compared to other metals, making it an ideal choice for many industries, Additionally, they have excellent heat transfer properties making them suitable for transferring heat from one component to another while still maintaining their structural integrity over time.

Application of flanges

Applications

A flange is a method of connecting pipes, valves, pumps, and other equipment to form a piping system. It also provides easy access for cleaning, inspection, or modification.

When a piping joint requires to be dismantled, flanges are being used. These are primarily used on equipment, valves, and specialty items. Breakout flanges are provided at predetermined intervals in certain pipelines where maintenance is a regular occurrence. The flanges, gaskets, and bolting make up a flanged joint, which is made up of three separate but interconnected components. To achieve a leak-proof joint, special controls are required in the selection and application of all of these elements.

Here are the details of Flanges about their advantages and their applications.

Advantages of Flanges

Pipes, valves, pumps, and other parts are connected with flanges to form a piping system. Generally, flanges are welded or screwed together. The use of flanges makes pipe system maintenance and repair a breeze. Instead of taking the entire pipe for inspection, a small section of the pipe can be carefully investigated to use a flange to locate the fault.

The following are the five most important benefits of The following are the five most important benefits of flanges:

  • Easy assembly in tight spaces where wrenches may not have clearance if traditional flange fittings are used. With moderate torque, they’re easier to put together.
  • In hard-to-reach areas where flexibility is required, adapters in the hose line, pipe, or tube can be removed.
  • Pipe connections, tubes, or large hose links with high pressure, vibration, or shock pressures that could damage traditional large hydraulic fittings more easily.
  • In rigid lines such as metal tubes or continuous pipes, making connections allows for easy maintenance.
  • In demanding hydraulic applications, reduce the chance of components becoming loose.

A flange is a method of connecting pipes, valves, pumps, and other equipment to form a piping system. It also provides easy access for cleaning, inspection, or modification. Flanges are usually welded or screwed.

In many applications, engineers need to find a way to close off a chamber or cylinder in a very secure fashion, usually because the substance inside must differ from the substance outside in composition or pressure.

They do this by fastening two pieces of metal or other material together with a circle of bolts on a lip. This “lip” is a flange.


Plumbing

You can connect two sections of metal piping by soldering or welding them together, but pipes connected in this way are very susceptible to bursting at high pressures. A way of connecting two sections of pipe more securely is by having flanged ends that you can connect with bolts. This way, even if gases or liquids build up to high pressures inside the pipe, it will often hold with no problem.


Mechanics

In order to connect two sections of a large, enclosed area, it is often best to used flanges and bolts. An example of this is the connection between the engine and the transmission in an automobile. In this case, both the engine and the transmission contain a number of moving parts that can easily get damaged if they get dust or other small objects inside of them. By connecting the outer casings of the engine and transmission in this way, engineers protect the inner workings of both.


Electronics

Flanges have a specific purpose in cameras and other electronic devices. Though flanges in such items do not usually have to sustain high pressures, they do have to hold tight so they can keep out harmful particles. These flanges are usually found connecting two different materials, such as the glass of a lens and the rest of the body of the camera.

Flange Material

Materials

Pipe flanges are manufactured in all the different materials like stainless steel, cast iron, aluminium, brass, bronze, plastic etc. but the most used material is forged carbon steel and have machined surfaces.

Flanges are welded to pipe and equipment nozzle. Accordingly, it is manufactured from the following materials;

  • Carbon steel
  • Low alloy steel
  • Stainless steel
  • Combination of Exotic materials (Stub) and other backing materials

The list of materials used in manufacturing is covered in ASME B16.5 & B16.47.

  • ASME B16.5 -Pipe Flanges and Flanged Fittings NPS ½” to 24”
  • ASME B16.47 -Large Diameter Steel Flanges NPS 26” to 60”

Commonly used Forged material grads are

  • Carbon Steel: – ASTM A105, ASTM A350 LF1/2, ASTM A181
  • Alloy Steel: – ASTM A182F1 /F2 /F5 /F7 /F9 /F11 /F12 /F22
  • Stainless Steel: – ASTM A182F6 /F304 /F304L /F316 /F316L/ F321/F347/F348

Frequently used astm grades

Material Fittings Flanges Valves Bolts & Nuts
Carbon Steel A234 Gr WPA A105 A216 Gr WCB A193 Gr B7
A194 Gr 2H
A234 Gr WPB A105 A216 Gr WCB
A234 Gr WPC A105 A216 Gr WCB
Carbon Steel
Alloy
High-Temp
A234 Gr WP1 A182 Gr F1 A217 Gr WC1 A193 Gr B7
A194 Gr 2H
A234 Gr WP11 A182 Gr F11 A217 Gr WC6
A234 Gr WP12 A182 Gr F12 A217 Gr WC6
A234 Gr WP22 A182 Gr F22 A217 Gr WC9
A234 Gr WP5 A182 Gr F5 A217 Gr C5
A234 Gr WP9 A182 Gr F9 A217 Gr C12
Carbon Steel
Alloy Low-Temp
A420 Gr WPL6 A350 Gr LF2 A352 Gr LCB A320 Gr L7
A194 Gr 7
A420 Gr WPL3 A350 Gr LF3 A352 Gr LC3
Austenitic Stainless Steel A403 Gr WP304 A182 Gr F304 A182 Gr F304 A193 Gr B8
A194 Gr 8
A403 Gr WP316 A182 Gr F316 A182 Gr F316
A403 Gr WP321 A182 Gr F321 A182 Gr F321
A403 Gr WP347 A182 Gr F347 A182 Gr F347

ASTM standards define the specific manufacturing process of the material and determine the exact chemical composition of pipes, fittings and flanges, through percentages of the permitted quantities of carbon, magnesium, nickel, etc., and are indicated by "Grade".

The usual materials of flanges include stainless steel, carbon steel, aluminum and plastic. The choice of the material largely depends on the purpose of the flange. For example, stainless steel is more durable and is necessary for heavy use. On the other hand, plastic is more feasible for use in the home because of its reasonable price and easy installation. The materials used for flanges are under the designation of the American Society of Mechanical Engineers.


Flange materials acc. to ASTM

The most common materials for pipe flanges (forged grades) are: ASTM A105 (carbon steel high temperature to match A53/A106/API 5L pipes), A350 Grades LF1/2/3 (carbon steel low temperature to match A333 pipes), A694 Grades F42 to F80 (high yield carbon steel to match API 5L pipe grades), ASTM A182 Grades F5 to F91 (alloy steel flanges to match A335 pipes), A182 Grade F304/316 (stainless steel flanges to match A312 SS pipes), A182 Gr. F44/F51/F53/F55 (duplex and super duplex to match A790/A928 pipes) and various nickel alloy grades (Inconel, Incoloy, Hastelloy, Monel).

The material qualities for these flanges are defined in the ASTM standards.


What are ASTM Grades?

For example, a carbon steel pipe can be identified with Grade A or B, a stainless-steel pipe with Grade TP304 or Grade TP321, a carbon steel fitting with Grade WPB etc.

Standard
Pipe Flange Standards mainly include three systems in the world, ANSI/ASME flange system(American), DIN flange system(European system), JIS flange system, other system made according to this three systems, like GB flange standard, which mainly made according to ANSI/ASME and DIN flange standard, Duwa Piping supplies those flanges with top quality and soonest delivery time.

  • ASME B16.1 – Gray Iron Pipe Flanges and Flanged Fittings: Classes 25, 125, and 250

  • ASME B16.5 – Pipe Flanges and Flanged Fittings: NPS 1/2 through NPS 24 Metric/Inch Standard

  • ASME B16.20 – Ring Joint Gaskets and Grooves for Steel Pipe Flanges

  • ASME B16.21 – Nonmetallic Flat Gaskets for Pipe Flanges

  • ASME B16.24 – Cast Copper Alloy Pipe Flanges and Flanged Fittings: Classes 150, 300, 600, 900, 1500, and 2500

  • ASME B16.34 – Large Diameter Steel Flanges (NPS 26 through NPS 60)

  • ASME B16.36 – Orifice Flanges

  • ASME B16.42 – Ductile Iron Pipe Flanges and Flanged Fittings: Classes 150 and 300

  • ASME B16.47 – Large Diameter Steel Flanges (NPS 26 Through NPS 60)


  • ASTM A105 – Specification for Carbon Steel Forgings for Piping Applications

  • ASTM A182 – Specification for Forged or Rolled Alloy Steel Pipe Flanges, Forged Fittings, and Valves and Parts for High Temperature Service

  • ASTM A193 – Specification for Alloy Steel and Stainless Steel Bolting Materials for High Temperature Service

  • ASTM A194 – Specification for Carbon and Alloy Steel Nuts for Bolts for High Pressure and High Temperature Service

  • ASTM A694 – Specification for Carbon and Alloy Steel Forgings for Pipe Flanges, Fittings, Valves, and Parts for High-Pressure Transmission Service

  • ASTM A707 – Specification for Flanges, Forged, Carbon and Allow Steel for Low Temperature Service


  • AWWA C115 – Standard for Flanged Ductile Iron Pipe with Ductile-Iron or Gray-Iron Threaded Flanges


  • ISO 5251 – Stainless steel butt-welding fittings


  • MSS SP-6 – Standard Finishes for Contact Faces Pipe Flanges and Connecting End Flanges of Valves and Fittings

  • MSS SP-9 – Spot Facing for Bronze, Iron and Steel Flanges

  • MSS SP-25 – Standard Marking Systems for Valves, Fittings, Flanges, and Unions

  • MSS SP-44 – Steel Pipeline Flanges

  • MSS SP-53 – Quality Standards for Steel Castings and Forgings for Valves, Flanges and Fittings and Other Piping Components – Magnetic Particle

  • MSS SP-54 – Quality Standards for Steel Castings and for Valves, Flanges and Fittings and Other Piping Components – Radiographic

  • MSS SP-55 – Quality Standards for Steel Castings and for Valves, Flanges and Fittings and Other Piping Components – Visual

  • MSS SP-75 – High Test Wrought Butt Welding Fittings

  • MSS SP-106 – Cast Copper Alloy Flanges and Flanged Fittings Class 125,150, and 300

  • ASME B16.5 and ASME B16.47 cover pipe flanges up to NPS 60 (B16.5 from 1/2″ to 24″ and B16.47 from 26″ to 60″). ANSI

  • B16.47 covers two series of flanges, Series A is equal to MSS SP-44-44, and Series B is equal to API 605 (API 605 has been canclled).

Frequently Asked Questions
Flanges have flat or flush surfaces that are vertical to the pipe to which they are attached. The attachment process involves mechanically joining two or more faces using bolts, adhesives, collars, or welds. Due to the attachment requirements, a flange must fit the equipment or pipe that it’s designed. That’s why it’s necessary to check all the possible specifications and dimensions to ascertain that it’s of the right size, type, and material.
Pipe flanges, gaskets, and bolts are the three parts that comprise a flanged connection. Gaskets and bolts are typically made of the same flange materials or a material approved for the pipe components. The gaskets mainly include full-face gaskets and ring gaskets. Full-face gaskets match raised-face flanges, while ring gaskets fit flat-faced flanges. All components need even alignment and firm fastening for normal operation.
Flange sizing depends on flange type and matching piping. You need to measure four key data: inside diameter, outside diameter, bolt hole count and bolt hole center. Take precise measurements, round up bolt diameter to half or whole inches, then compare with manufacturer specification tables to select the correct model.
Before delivery, every flange undergoes strict inspection, including outer & inner diameter of body, bolt circle & bolt hole diameter, hub diameter & thickness of weld end, length of the hub, as well as straightness and alignment of the bolt hole. All inspections follow ASME B16.5 and B16.47 standards for permissible tolerances.
Main mainstream standards: ASTM A105 for forged carbon steel flanges for high-pressure service; ASTM A182 for alloy steel flanges for high-temperature service; ANSI B16.5 and ASME B16.47 for dimension and tolerance of steel flanges; DIN 2632-2638 for European standard steel flanges; BS 4504 for British standard pipe flanges. The selection depends on working pressure, temperature and conveying medium.
Common connection methods include threading, welding and bolting. Threaded flanges apply to low-pressure and small-diameter pipelines. Welded flanges are suitable for large-diameter, high-pressure and high-temperature pipelines. Butt weld connections are recommended for pipelines under expansion, vibration and other severe mechanical forces.
Most leakage problems of flanged connections are caused by improper installation of gaskets. Professional construction and supervision are required to ensure tight sealing and stable operation of the entire piping system.
Flanged connection construction shall comply with TSE – TS EN 1591 Part 1-4 standard, which specifies a full set of requirements for standard execution of flanges and their joints.
Welded flanges are widely used for pipelines over 2 inches under high pressure and high temperature. Threaded flanges are used for small-diameter pipelines without severe mechanical forces like expansion and vibration.

Delivery

Steel flanges must be packed with seaworthy packing method then delivery to customers, usually the packing way include wooden box, wooden pallet, iron & steel cage, iron & steel pallet etc.

Flange Marking

Flange Marking

Flange markings are governed by ANSI ASME codes. Flange marking includes;

  • Manufacturer logo
  • ASTM material code
  • Material Grade
  • Service rating (Pressure-temperature Class))
  • Size
  • Thickness (Schedule)
  • Heat No
  • Special marking if any QT (Quenched and tempered) or W (Repair by welding)

PMI-raw material inspection

Flange raw material PMI
Flange raw material PMI
Flange raw material PMI

Size inspection

ASME B16.5 and B16.47 standards cover permissible tolerances for inspection.

Flange size inspection
Flange size inspection
Flange size inspection
Flange size inspection
Flange size inspection
Flange size inspection

Packing

Because of the normal wooden boxes or wooden pallets have to do fumigation treatment, we usually use plywood pallet or plywood case or box to pack steel flanges without fumigation treatment.

Flange size inspection
Flange size inspection
Flange size inspection
Flange size inspection
Flange size inspection
Flange size inspection
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