ASTM A350 LF2 CARBON STEEL COUPLINGS: We are thrilled to announce that Creative Piping Company has successfully supplied a client in Italy with custom-manufactured ASTM A350 LF2 carbon steel couplings. These couplings were meticulously crafted to meet the client’s requirements, ensuring they adhere to their specifications’ highest standards and precise needs. This achievement underscores our commitment to delivering tailored, high-quality solutions to our global clientele.
ASTM A350 LF2 CARBON STEEL COUPLINGS
Our team of experts worked diligently to ensure that every coupling meets and exceeds industry standards. This successful export is a testament to our capability to produce specialized components for diverse industrial applications.
We look forward to continuing our partnership with clients worldwide, providing innovative and reliable piping solutions.
For more information on our products and services, visit ourwebsite.
In the industrial heartland of Mumbai, near Sweeri, Maharashtra, a company stands tall, setting the gold standard for forged pipe fittings. Creative Piping Solutions Pvt. Ltd. proudly bears the ISO 9001:2015, 14001:2004, and 18001:2007 certifications, attesting to its unwavering commitment to quality and precision.
Crafting Excellence
Creative Piping Solutions’ cutting-edge in-house manufacturing plant is where raw materials are meticulously transformed into high-caliber forged pipe fittings. The company specializes in crafting these fittings for critical sectors like Oil, Gas, Petrochemical, and Nuclear industries.
Materials That Matter
Versatility is a hallmark of Creative Piping Solutions. Their extensive range of materials includes Stainless Steel, Carbon Steel, Alloy Steel, Duplex & Super Duplex Steel, Nickel Alloys, and more, catering to the diverse needs of their discerning clientele.
A Closer Look at the Product Portfolio
Let’s delve into their comprehensive range of threaded and socket weld fittings:
Elbow: Used for directional changes in piping, these fittings come in various angles, ensuring efficient fluid flow.
Tee: Tees are employed to create branches in a pipeline, allowing fluid or gas to flow in different directions.
Lateral Tee: This specialized tee design offers a 45-degree branch for precise flow control.
Cross: Cross fittings facilitate four-way connections in pipelines, making them versatile for complex piping systems.
Coupling: Couplings are essential for joining two pipes together with precision and strength.
End Cap: These fittings seal the end of pipes, ensuring containment or closure as needed.
Bushing: Bushings are used to reduce or increase the size of threaded connections for adaptability.
Plug: Plugs are employed to close off the ends of pipes or fittings, preventing leaks.
Union: Unions provide a convenient way to disassemble and reassemble pipes for maintenance.
Swage Nipple: These fittings are crucial for connecting pipes of different sizes, ensuring seamless flow.
Swage Boss: Swage bosses are used for adding outlets to pipes or vessels efficiently.
Adapter: Adapters serve as connectors between different threads or sizes, facilitating compatibility.
For detailed specifications, dimensions, weight charts, tolerances, and more, you can visit their website at creativepiping.com. The website acts as a valuable resource, offering all the technical details necessary for informed decision-making.
Target Markets and Beyond
Creative Piping Solutions Pvt. Ltd. isn’t confined to India; it boasts a global reach. Their products are not only integral to India’s industrial landscape but also find their way into Gulf countries, where the demand for top-tier forged pipe fittings is substantial.
Saudi Arabia
United Arab Emirates (UAE)
Qatar
Kuwait
Bahrain
Oman
Applications That Shine
These forged pipe fittings find application in various industrial scenarios:
Oil and Gas Industry: They ensure the seamless flow and control of fluids in pipelines and refineries.
Petrochemical Plants: Vital for handling and transporting chemicals and gases efficiently.
Nuclear Facilities: Precision and reliability are indispensable in nuclear power plants.
General Industrial Use: From plumbing systems to machinery, threaded and socket weld fittings have diverse applications across industries.
Creative Piping Solutions Pvt. Ltd. isn’t just a company; it’s an emblem of unwavering dedication to excellence, quality, and innovation in the realm of forged pipe fittings. As industries evolve and expand, this company continues to be a trusted partner, ensuring pipelines and systems are efficient, dependable, and secure.
Environmental Impact of Forged Fittings: Sustainability and Benefits
Introduction:
Environmental Impact of Forged Fittings: Sustainability and Benefits: In today’s world, the environmental impact of industrial processes and products has gained significant attention. Forged fittings, known for their strength, durability, and versatility, play a crucial role in various industries. This blog explores the environmental impact of forged fittings, discussing their sustainability, benefits, and contributions to a greener future.
The Green Advantage of Forged Fittings:
Forged fittings are manufactured through a forging process that involves shaping heated metal into the desired form using compressive forces. This process, when compared to other manufacturing methods, offers several environmental benefits:
Material Efficiency: Forging produces less waste compared to other methods like machining or casting. It optimizes material use, reducing scrap and minimizing the demand for raw materials.
Energy Efficiency: Forging requires less energy than many alternative methods, making it an energy-efficient choice. The controlled heating and shaping process result in lower energy consumption and reduced greenhouse gas emissions.
Reduced Emissions: The reduced energy consumption and efficient material usage in forging translate to lower emissions of greenhouse gases and pollutants compared to other manufacturing processes.
Longevity and Durability: Forged fittings are renowned for their strength and durability, which leads to longer service lives. This longevity minimizes the need for frequent replacements, conserving resources and reducing waste.
Sustainable Material Choices:
Forged fittings are available in various materials, each with its own environmental impact. Some materials, like high nickel alloys and stainless steel, offer exceptional corrosion resistance, reducing the need for maintenance and replacement. By selecting materials that withstand harsh conditions without deteriorating, industries can extend the lifespan of their systems and minimize environmental impact.
Application Areas and Environmental Benefits:
Oil and Gas Industry: Forged fittings used in pipelines, refineries, and offshore platforms contribute to reliable and leak-free systems, reducing the risk of spills and environmental contamination.
Power Generation: In power plants, forged fittings help maintain efficient and reliable steam and gas systems, ensuring minimal energy wastage and reduced emissions.
Chemical Processing: By withstanding corrosive chemicals and high pressures, forged fittings in chemical plants contribute to safe operations and prevent leaks that could harm the environment.
Aerospace: In aircraft engines, forged fittings improve reliability, reducing maintenance requirements and minimizing the environmental impact of frequent part replacements.
Recycling and End-of-Life Considerations:
When forged fittings reach the end of their service life, they can often be recycled and repurposed. Their durability and material quality make them valuable for secondary uses, further minimizing waste and the demand for new raw materials.
Industry Regulations and Standards:
Environmental regulations and standards push industries toward more sustainable practices. Forged fittings manufacturers often adhere to strict guidelines that prioritize responsible material sourcing, energy efficiency, and waste reduction.
Conclusion:
Forged fittings stand out not only for their mechanical properties but also for their positive environmental impact. Their energy efficiency, material optimization, and durability contribute to a greener and more sustainable future. As industries increasingly recognize the significance of environmental responsibility, the choice of forged fittings aligns with a commitment to minimizing the carbon footprint and ensuring the long-term health of our planet.
Forged pipe fittings are manufactured by a process called forging, which involves shaping and compressing heated metal into the desired shape. The process results in a strong and durable product that can withstand high pressure and extreme temperatures. Here are the steps involved in the manufacturing process of forged pipe fittings:
Raw material selection: The first step in the manufacturing process is selecting the appropriate raw material, typically high-quality metal alloys like carbon steel, stainless steel, or nickel alloys. Raw material selection is typically done by purchasing the material from suppliers or by sourcing the raw material in-house.
Heating: The raw material is heated to a temperature that softens it and makes it malleable. The temperature varies depending on the type of material being used. Heating is typically done using a furnace or induction heating equipment.
Forging: The heated metal is then placed in a forging press, where it is compressed and shaped using high-pressure and specialized dies. Forging presses can be hydraulic, mechanical, or pneumatic depending on the size and complexity of the product being manufactured.
Trimming: After the forging process, the excess material is trimmed off to create a finished product. Trimming can be done using a variety of tools including saws, grinders, and shears.
Machining: If necessary, the forged pipe fittings may undergo further machining to create specific shapes or features. Machining is typically done using lathes, mills, or drilling machines.
Inspection: The finished fittings are inspected to ensure they meet quality standards and specifications. Inspection can be done using a variety of tools including calipers, micrometers, and ultrasonic testing equipment.
Overall, the manufacturing process of forged pipe fittings involves the use of a variety of tools and machinery to create high-quality, durable products that can withstand extreme temperatures and pressure.
The machinery used in the manufacturing process includes forging presses, trimming machines, and machining equipment.
There are various standards that govern the manufacturing of forged pipe fittings, including ASME/ANSI B16.11, ASTM A105, and MSS SP-83. The size range and pressure ratings of forged pipe fittings can vary depending on the material and specific product. Generally, they range from 1/8″ to 4″ in size and can handle pressure ratings up to 6000 PSI for all types of forged fittings such as Forged Elbow, Forged Tee, Forged Coupling, Forged Union, Forged Cap, Forged Plug.
The raw materials used in the manufacturing of forged pipe fittings are typically high-quality metal alloys like carbon steel, stainless steel, or nickel alloys. The specific material used will depend on the application and required properties of the fitting.
There are several types of forged fittings that can be produced using the manufacturing process outlined above. Here are some of the most common types of forged fittings:
Forged Elbow: A forged elbow is a pipe fitting that allows for a change in the direction of the pipe. It is typically available in 45-degree or 90-degree angles and can be produced in a variety of sizes and pressure ratings.
Forged Tee: A forged tee is a pipe fitting that allows for the branching of a pipeline into two or more directions. It is typically available in equal and reducing sizes, and can be produced in a variety of sizes and pressure ratings.
Forged Coupling: A forged coupling is a pipe fitting that is used to join two pipes of equal or different diameters. It is typically available in full and half coupling types and can be produced in a variety of sizes and pressure ratings.
Forged Union: A forged union is a pipe fitting that is used to join two pipes that can be easily disconnected for maintenance or repair purposes. It is typically available in threaded and socket-welded types and can be produced in a variety of sizes and pressure ratings.
Forged Cap: A forged cap is a pipe fitting that is used to seal the end of a pipe. It is typically available in threaded and socket-welded types and can be produced in a variety of sizes and pressure ratings.
Forged Plug: A forged plug is a pipe fitting that is used to seal the end of a pipe or a fitting. It is typically available in threaded and socket-welded types and can be produced in a variety of sizes and pressure ratings.
It’s important to note that the size range and pressure rating for each type of forged fitting can vary depending on the specific material being used and the manufacturer. Additionally, some manufacturers may produce forged fittings in larger sizes or with higher pressure ratings, depending on the requirements of the pipeline system.
Open-die forging and closed-die forging are two common methods used in the forging process, each with its own unique characteristics and benefits.
Open die forging, also known as smith forging, is a forging process where a hammer strikes and deforms a piece of metal repeatedly until the desired shape is achieved. The metal is not fully enclosed by the die, and there is no impression left on the metal. Instead, the metal is shaped by the repeated blows of the hammer. Open die forging is commonly used to produce large forgings, such as those used in the aerospace and oil and gas industries.
Closed die forging, also known as impression forging, is a forging process where the metal is placed between two dies and shaped by applying pressure through a hydraulic press. The dies are typically pre-machined to the shape of the desired forging, which is then achieved by applying pressure to the metal between the dies. Closed die forging is commonly used to produce smaller, more intricate forgings, such as those used in the automotive and medical industries.
The main difference between open die forging and closed die forging is the level of control over the shape of the final product. Open-die forging relies on the skill of the operator to achieve the desired shape, while closed-die forging allows for precise control over the final product shape. Closed-die forging is also generally faster than open-die forging, as the forging process can be completed in fewer steps.
In summary, open-die forging and closed-die forging are two different forging methods that offer unique benefits depending on the specific application. Open-die forging is typically used to produce large, simple shapes, while closed-die forging is used for smaller, more intricate shapes that require a higher level of precision.
These forged fittings are commonly used in a variety of industries, including oil and gas, petrochemical, power generation, and others. The specific type of forged fitting used will depend on the application and the requirements of the pipeline system. To get the best quality products and affordable prices contact Creative Piping Solutions Pvt. Ltd.
Best Leading Flanges – Buttweld Fittings Manufacturer in 2023
Best Leading Flanges – Buttweld Fittings Manufacturer in 2023 – : We are happy to inform you that last year our respected clients were very satisfied with our services, delivery time frame, technical expertise, and product quality.
Therefore in 2023 this year we have made up our minds that our mission is to maintain the standards and try to improve them further.
Creative Piping Solutions has become one of the #1 top leading Industrial Flanges, Buttweld Pipe Fittings, Forged Pipe Fittings, and Pre-fabricated Fittings manufacturers, exporters, and suppliers in the year 2023.
Best Leading Industrial Flanges Manufacturer in 2023:
Below are the countries’, region, and cities’ lists we are exporting our best quality Industrial Flanges, Buttweld Pipe Fittings, Forged Pipe Fittings, and Pre-fabricated Fittings.
✓ South Africa, ✓ Saudi Arabia, ✓ Italy, ✓ Malaysia, ✓ Bahrain,
✓ Myanmar, ✓ Kuwait, ✓ Indonesia, ✓ Dubai, ✓ United Arab Emirates (UAE),
Please feel free to reach us for any requirement regarding Industrial Flanges, Buttweld Pipe Fittings, Forged Pipe Fittings, and Pre-fabricated Fittings we guarantee that we will offer you the best services, pricing, and product quality.
Our Values
Our Clients are our most valuable assets and for that, we use our skilled people and the latest technology and equipment to fulfill their needs.
Why Us
We are a renowned name in this domain engaged in providing various types of Stainless steel, Carbon Steel & Alloy Steel Products; we have gained immense client appreciation, Owing to our excellent product quality and transparent dealings.
Specialties that make us a profitable business partner for our clients are
Cost-effective rates
Customized solution
Customized packaging
Customer focused approach
Easy payment modes
Good Financial Position & TQM
Superior quality products
Timely delivery schedule
Timely delivery of products
Experience and specialty in work
Our Vision
We help customers develop their energy resources; bringing world-class capability and delivering it locally. We promote commercial arrangements that are aligned to our customers ’ needs, allowing us to deliver more value to the customer while increasing the returns from our most precious asset – our people.
Our Mission
Provide technically sound solutions and create additional value in mutual interest with our customers resulting in being a preferred Stockists & Suppliers within the Stockists & Suppliers industry.
We would appreciate getting your esteemed inquiries and look forward to the pleasure of receiving your valuable response.
Leading Manufacturers, Suppliers, and Exporters of Carbon Steel Forged Fittings in Myanmar, Kuwait, Malaysia, Bahrain, Australia, Singapore
Leading Manufacturers Complete Guide of Carbon Steel Forged Fittings by – Malaysia, Bahrain, Myanmar, Kuwait.
Different types of steel are available in the market and some people assume that all steel is the same, but it’s not necessarily true. Every steel grade has its unique characteristics and benefits such as carbon steel’s increased strength, a high durability standard, free leak connection, and cost-effectiveness. The use of carbon makes iron — or steel — stronger by shuffling around its crystal lattice. It has a higher concentration of carbon than other types of steel.
Technique of creative durable carbon steel fittings is forged carbon steel fittings. During the manufacturing process, low or high carbonsteel is heated to molten temperatures, and the heated CS is then machined into the forged fittings in the dies.
Creative Piping Solutions is ISO certified Leading Manufacturers, Suppliers, and Exporters of C S Forged Fittings that cover threaded and socket weld fittings types such as Elbow, Tee, Cross, Coupling, End Cap, Bushing, Plug, Union, Nipple, Boss, Adapter, Reducer in Malaysia, Bahrain, Myanmar, Kuwait.
CarbonSteel Forged Fittings are widely used in various applications ranging from the petrochemical, chemical, power generation, and OEM manufacturing industries to other uses where vibration high pressure or highly corrosive conditions are required.
Alloy 20 / 254 SMO / AISI 4130 Forged Fittings Manufacturers in India
Alloy 20 / 254 SMO / AISI 4130 Forged Fittings Manufacturers, Threaded and Socket Weld Fittings in the Grade Alloy 20, 254 SMO, and AISI 4130:
What is Forged Fittings:
Forged threaded and socket weld fittings are fittings made of forged steel. The process of manufacturing forged fittings includes: cutting and heating billets, putting pressure on heated billets under dies into the desired shape, trimming, and shot blasting. Then machine forged blank fittings for net shape and dimensions. The Dimensions of forged steel fittings usually conform to ASME (American Society of Mechanical Engineers) B16.11.
What is Alloy 20:
Alloy 20 also popularly known as Carpenter 20 alloy, is a nickel-iron-chromium-based, austenitic alloy withexcellent corrosion resistance in chemical environments containing sulfuric acid and many other aggressive media. It is largely used in the industries such as chemical processing, petrochemical and refining, marine, pharmaceutical, and food processing.
254 SMO is a stainless steel grade and it is a very high-end austenitic stainless steel; mainly comprised of between 19.5% and 20.5% chromium, 17.5% to 18.5% nickel, 6% to 6.5% molybdenum and .18% to .22% nitrogen. It is designed with a combination of impact toughness resistance to chloride stress corrosion cracking and pitting and crevice corrosion with a strength twice that of the stainless steel 300 series stainless steel.
Industries that use UNS S31254: Flue gas desulfurization, Chemical, Food Processing, Desalination, Pulp and Paper, and Pharmaceutical.
254 SMO Socket Weld / Threaded Fittings Size: 1/8″~4″ (DN6~DN100).
254 SMO Forged Fittings Threads: ISO, DIN, NPT, BSPT.
What is AISI 4130:
Alloy steels are designated by AISI four-digit numbers. Grade 4130 is a low alloy C-steel containing chromium and molybdenum as strengthening agents. AISI 4130 is also commonly referred to as Chromoly steel or chrome moly steel. It can be welded easily because of the low carbon content in it. This low-alloy steel finds many applications as forgings in the aerospace and oil and gas industries – as forged valve bodies and pumps –, as well as in the automotive, agricultural, and defense industries.
Grade 4130 steel should be forged between 1230 and 950 º C (2250 and 1750 º F). The lower the finishing temperature from forging, the finer will be the grain size. Suppose the 4130 alloy steel is forged at too low a temperature. In that case, there is a risk of forming a non-uniform structure in certain areas of the forged part, necessitating a normalizing treatment, prior to further heat treatment.
ASTM B16.11 Forged Fittings Dimensions, Forged Threaded and Socket Weld Fittings in the size range 1/2” to 4” and in pressure ratings Class
ASTM B16.11 is the international standard used in the manufacturing of Forged Fittings which include two types that are Forged Threaded Fittings and Forged Socket Weld Fittings. These High-Pressure Fittings are available in Various Materials like Stainless Steel, Carbon Steel, High Nickel Allys, and more.
It is produced in the Size range of 1/2” to 4”, and in pressure ratings Class 2000, 3000, 6000, and 9000. Pressure rating classes also differ in Threaded and Socket Weld Fittings, Class 2000, 3000, and 6000 for threaded fittings and Class 3000, 6000, and 9000 for socket-weld fittings.
Forged pipe fittings are manufactured by forging and machining solid steel and are available in various shapes like Elbow, Bushing, Cap, Cross, Coupling, Plug, Tee, End Cap, Union, Reducer, Reducer Insert, Boss, Nipple, Adapter, Outlet. It is used for associating or connecting pipes, pumps, valves, & other equipment to create a piping system below the size 2 or 4 inches in diameter.
Socket weld fittings connect to pipes by fillet welds and threaded fittings by screwing pipe onto the fittings. Normally Class 3000 fittings are used for pipes in schedule 80/XS; Class 6000 for pipes Sch. 160; Class 9000 fittings for pipes with larger wall thickness (XXS).
Creative Piping Solutions Pvt. Ltd. is one of the top manufacturers of High Pressure Forged Pipe Fittings in India. We are authorized Suppliers and Exporters of Threaded and Socket Weld Fittings in South Africa, Malaysia, Singapore, Qatar, Italy, Philippines, Australia, and Dubai, UAE.
Class of
Fitting
Type of
Fitting
SCH No.
Wall Designation
2000
Threaded
80
XS
3000
Threaded
160
–
6000
Threaded
–
XXS
3000
Socket-Welding
80
XS
6000
Socket-Welding
160
–
9000
Socket-Welding
–
XXS
Above Table: correlation of ASME B16.11 fittings Class with schedule number or wall designation of pipe for calculation of ratings.
ASME B16.11 Standard Scope:
This standard contains dimensions, pressure-temperature ratings, markings, tolerances, and material requirements for forged fittings. Custom-design forged fittings with special dimensions, threads, or counterbores may be made by agreement between the manufacturer and purchaser. All dimensions tables are given below.
ASME B16.11 45 Degree Elbow Dimensions
Dimensions in Millimeters.
Socket Welding
DN
Nom. Pipe Size
B(2)
C(1)
D(2)
A(2)
G
(Min)
J
(Min)
(Avg) I (Min)
3000Lb
6
1/8
10.8
3.18
3.18
6.9
8.0
2.41
9.5
8
1/4
14.2
3.78
3.30
9.3
8.0
3.02
9.5
10
3/8
17.6
4.01
3.50
12.6
8.0
3.20
9.5
15
1/2
21.8
4.67
4.09
15.8
11.0
3.73
9.5
20
3/4
27.2
4.90
4.27
21.0
13.0
3.91
12.5
25
1
33.9
5.69
4.98
26.7
14.0
4.55
12.5
32
1-1/4
42.7
6.07
5.28
35.1
17.5
4.85
12.5
40
1-1/2
48.8
6.35
5.54
40.9
20.5
5.08
12.5
50
2
61.2
6.93
6.04
52.5
25.5
5.54
16.0
65 I
2-1/2
73.9
8.76
7.67
62.7
28.5
7.01
16.0
80
3
89.8
9.52
8.30
78.0
32.0
7.62
16.0
100
4
115.2
10.69
9.36
102.3
41.0
8.56
19.0
6000Lb
6
1/8
10.8
3.96
3.43
4.0
8.0
3.15
9.5
8
1/4
14.2
4.60
4.01
6.4
8.0
3.68
9.5
10
3/8
17.6
5.03
4.37
9.2
11.0
4.01
9.5
15
1/2
21.8
5.97
5.18
11.8
12.5
4.78
9.5
20
3/4
27.2
6.96
6.04
15.6
14.0
5.56
12.5
25
1
33.9
7.92
6.93
20.7
17.5
6.35
12.5
32
1-1/4
42.7
7.92
6.93
29.5
20.5
6.35
12.5
40
1-1/2
48.8
8.92
7.80
34.0
25.5
7.14
12.5
50
2
61.2
10.92
9.50
42.9
28.5
8.74
16.0
9000Lb
15
1/2
21.8
9.35
8.18
6.4
15.5
7.47
9.5
20
3/4
27.2
9.78
8.56
11.1
19.0
7.82
12.5
25
1
33.9
11.38
9.96
15.2
20.5
9.09
12.5
32
1-1/4
42.7
12.14
10.62
22.8
22.5
9.70
12.5
40
1-1/2
48.8
12.70
11.12
28.0
25.5
10.15
12.5
50
2
61.2
13.84
12.12
38.2
28.5
11.07
16.0
1. Average socket Wall Thickness around the periphery be no less than the listed values. The minimum values are permitted in localized areas.
Dimensions in Millimeters.
Threaded
DN
Nom. Pipe Size
Length of Thread.
(Min)
C
G (Min)
H
B(2)
L2(2)
2000Lb
6
1/8
6.4
6.7
17
3.18
22
8
1/4
8.1
10.2
17
3.18
22
10
3/8
9.1
10.4
19
3.18
25
15
1/2
10.9
13.6
22
3.18
33
20
3/4
12.7
13.9
25
3.18
38
25
1
14.7
17.3
28
3.68
46
32
1-1/4
17.0
18.0
33
3.89
56
40
1-1/2
17.8
18.4
35
4.01
62
50
2
19.0
19.2
43
4.27
75
65
2-1/2
23.6
28.9
52
5.61
92
80
3
25.9
30.5
64
5.99
109
100
4
27.7
33.0
79
6.55
146
3000Lb
6
1/8
6.4
6.7
17
3.18
22
8
1/4
8.1
10.2
19
3.30
25
10
3/8
9.1
10.4
22
3.51
33
15
1/2
10.9
13.6
25
4.09
38
20
3/4
12.7
13.9
28
4.32
46
25
1
14.7
17.3
33
4.98
56
32
1-1/4
17.0
18.0
35
5.28
62
40
1-1/2
17.8
18.4
43
5.56
75
50
2
19.0
19.2
44
7.14
84
65
2–1/2
23.6
28.9
52
7.65
102
80
3
25.9
30.5
64
8.84
121
100
4
27.7
33.0
79
11.18
152
6000Lb
6
1/8
6.4
6.7
19
6.35
25
8
1/4
8.1
10.2
22
6.60
33
10
3/8
9.1
10.4
25
8.98
38
15
1/2
10.9
13.6
28
8.15
46
20
3/4
12.7
13.9
33
8.53
56
25
1
14.7
17.3
35
9.93
62
32
1-1/4
17.0
18.0
43
10.59
75
40
1-1/2
17.8
18.4
44
11.07
84
50
2
19.0
19.2
52
12.09
102
65
2–1/2
23.6
28.9
64
15.29
121
80
3
25.9
30.5
79
16.64
146
100
4
27.7
33.0
79
18.67
152
(*) Dimension B is the minimum length of the perfect thread. The length of useful thread (B plus threads with fully formed roots and get crests) shall not be less than L2 (effective length of external thread) required by American National Standard for pipe threads (ANSI / ASME B1.20.1).
ASME B16.11 90 Degree Elbow Dimensions
Dimensions in Millimeters
Socket Welding
DN
Nom. Pipe Size
B(Min)
C
D(Avg)
A
G (Min)
J (Min)
(Avg)
(Min)
3000Lb
6
1/8
10.8
3.18
3.18
6.9
11.0
2.41
9.5
8
1/4
14.2
3.78
3.30
9.3
11.0
3.02
9.5
10
3/8
17.6
4.01
3.50
12.6
13.5
3.20
9.5
15
1/2
21.8
4.67
4.09
15.8
15.5
3.73
9.5
20
3/4
27.2
4.90
4.27
21.0
19.0
3.91
12.5
25
1
33.9
5.69
4.96
26.07
22.5
4.55
12.5
32
1–1/4
42.7
6.07
5.28
35.1
27.0
4.85
12.5
40
1–1.2
48.8
6.35
5.54
40.9
32.0
5.08
12.5
50
2
61.2
6.93
6.04
52.5
38.0
5.54
16.0
65
2-1/2
73.9
8.76
7.67
62.7
41.0
7.01
16.0
80
3
89.8
9.52
8.30
78.0
57.0
7.62
16.0
100
4
115.2
10.69
9.35
102.3
66.5
8.56
19.0
6000Lb
6
1/8
10.8
3.96
3.43
4.0
11.0
3.15
9.5
8
1/4
14.2
4.60
4.01
6.4
13.5
3.68
9.5
10
3/8
17.6
5.03
4.37
9.2
15.5
4.01
9.5
15
1/2
21.8
5.97
5.18
11.8
19.0
4.78
9.5
20
3/4
27.2
6.96
6.04
15.6
22.5
5.56
12.5
25
1
33.9
7.92
6.93
20.7
27.0
6.35
12.5
32
1-1/4
42.7
7.92
6.93
29.5
32.0
6.35
12.5
40
1-1/2
48.8
8.92
7.80
34.0
38.0
7.14
12.5
50
2
61.2
10.92
9.50
42.9
41.0
8.74
16.0
9000Lb
15
1/2
21.8
9.35
8.18
6.4
25.5
7.47
9.5
20
3/4
27.2
9.78
8.56
11.1
28.5
7.82
12.5
25
1
33.9
11.38
9.96
15.2
32.0
9.09
12.5
32
1-1/4
42.7
12.14
10.62
22.8
35.0
9.70
12.5
40
1-1/2
48.8
12.70
11.12
28.0
38.0
10.15
12.5
50
2
61.2
13.84
12.12
38.2
54.0
11.07
16.0
(1) Average socket Wall Thickness around the periphery shall be no less than the listed values. The minimum values are permitted in localized areas.
Dimensions in Millimeters.
Threaded
DN
Nom. Pipe Size
Length of Thread. (Min)
A
G (Min)
H
B(*)
L2(*)
2000Lb
6
1/8
6.4
6.7
21
3.18
22
8
1/4
8.1
10.2
21
3.18
22
10
3/8
9.1
10.4
25
3.18
25
15
1/2
10.9
13.6
28.0
3.18
33
20
3/4
12.7
13.9
33
3.18
38
25
1
14.7
17.3
38
3.68
46
32
1-1/4
17.0
18.0
44
3.89
56
40
1–1/2
17.8
18.4
51
4.01
62
50
2
19.0
19.2
60
4.27
75
55
2-1/2
23.6
28.9
76
5.61
92
80
3
25.9
30.5
86
5.99
109
100
4
27.7
33.0
106
6.55
146
3000Lb
6
1/8
6.4
6.7
21
3.18
22
8
1/4
8.1
10.2
25
3.30
25
10
3/8
9.1
9.1
28
3.51
33
15
1/2
10.9
13.6
33
4.09
38
20
3/4
12.7
13.9
38
4.32
46
25
1
14.7
17.3
44
4.98
56
32
1-1/4
17.0
18.0
51
5.28
62
40
1-1/2
17.8
18.4
60
5.56
75
50
2
19.0
19.2
64
7.14
84
65
2-1/2
23.6
28.9
83
7.65
102
80
3
25.9
30.5
95
8.84
121
100
4
27.7
33.0
114
11.18
152
6000Lb
6
1/8
6.4
6.7
25
6.35
25
8
1/4
8.1
10.2
28
6.60
33
10
3/8
9.1
10.4
33
6.98
38
15
1/2
10.9
13.6
38
8.15
46
20
3/4
12.7
13.9
44
8.53
56
25
1
14.7
17.3
51
9.93
62
32
1-1/4
17.0
18.0
60
10.59
75
40
1-1/2
17.8
18.4
64
11.07
84
50
2
19.0
19.2
83
12.09
102
65
2-1/2
23.6
28.9
95
15.29
121
80
3
25.9
30.5
106
16.64
146
100
4
27.7
33.0
114
18.67
152
Dimension B is the minimum length of a perfect thread. The length of useful thread (B plus threads with fully formed roots and flat crests) shall not be less than L2 (effective length of external thread) required by American National Standard for pipe threads (ANSI I ASME B1.20.1).
ASME B16.11 Bushing Dimensions
Dimensions in Millimeters
Hex Head Plug
DN
Nom. Pipe Size
A (Min)
F (Nom)
H (Min)
6
1/8
10
11.11
6
8
1/4
11
15.88
6
10
3/8
13
17.46
8
15
1/2
14
22.23
8
20
3/4
16
26.99
10
25
1
19
34.93
10
32
1-1/4
21
44.45
14
40
1-1/2
21
50.80
16
50
2
22
63.50
18
65
2-1/2
27
76.20
19
😯
3
28
88.90
21
100
4
32
117.48
25
Dimensions in Millimeters.
Hex Head gushing
DN
Nom. Pipe Size
A (Min)
F (Non)
G (Min)
8
1/4
11
15.88
3
10
3/8
13
17.46
4
15
1/2
14
22.23
5
20
3/4
16
26.99
6
25
1
19
34.93
6
32
1-1/4
21
44.45
7
40
1-1/2
21
50.80
8
50
2
22
63.50
9
65
2-1/2
27
76.20
10
80
3
28
88.90
10
100
4
32
117.48
13
CAUTIONARY NOTE REGARDING HEX BUSHINGS.
Hex Head Bushings of one-size reduction should not be used in services where they might be subject to harmful loads and forces than internal’ pressures.
ASME B16.11 Cap Dimensions
Dimensions in Millimeters.
Socket Welding
DN
Nom Pipe Size
B (Min)
C
K (Min)
J (Min)
(Avg)
(Min)
3000Lb
6
1/8
10.8
3.18
3.18
4.8
9.5
8
1/4
14.2
17.8
3.30
4.8
9.5
10
3/8
17.6
4.01
3.50
4.8
9.5
15
1/2
21.8
4.67
4.09
6.4
9.5
20
3/4
27.2
4.90
4.27
6.4
12.5
25
1
33.9
5.69
4.98
9.6
12.5
32
1–1/4
42.7
6.07
5.28
9.6
12.5
40
1-1/2
48.8
6.35
5.54
11.2
12.5
50
2
61.2
6.93
6.04
12.7
16.0
65
2-1/2
73.9
8.76
7.67
15.7
16.0
😯
3
89.8
9.52
8.30
19.0
16.0
100
4
115.2
10.69
9.35
22.4
19.0
6000Lb
6
1/8
10.8
3.96
3.43
6.4
9.5
8
1/4
14.2
4.60
4.01
6.4
9.5
10
3/8
17.6
5.03
4.37
6.4
9.5
15
1/2
21.8
5.97
5.18
7.9
9.5
20
3/4
27.2
6.96
6.04
7.9
12.5
25
1
33.9
7.92
6.93
11.2
12.5
32
1-1/4
42.7
7.92
6.93
11.2
12.5
40
1-1/2
48.8
8.92
7.80
12.7
12.5
50
2
61.2
10.92
9.50
15.7
16.0
9000Lb
15
1/2
21.8
9.35
8.18
11.2
9.5
20
3/4
27.2
9.78
8.56
12.7
12.5
25
1
33.9
11.38
9.96
14.2
12.5
32
1–1/4
42.7
12.14
10.62
14.2
12.5
40
1-1/2
48.8
12.70
11.12
15.7
12.5
50
2
61.2
13.84
12.21
19.0
16.0
(1) Average socket Wail Thickness around the periphery shall be no less than the listed values. The minimum values are permitted in localized areas.
Dimensions are in Millimeters.
Threaded
Nom
Length ofThread.
DN
Pipe
(Min)
P
D
G
Size
B |L2
(Min)
3000Lb
6
1/8
6.4
6.7
19
16
4.8
8
1/4
8.1
10.2
25
19
4.8
10
3/8
9.1
10.4
25
22
4.8
15
1/2
10.9
13.6
32
28
6.4
20
3/4
12.7
13.9
37
35
6.4
25
1
14.7
17.3
41
44
9.7
32
1-1/4
17.0
18.4
44
57
9.7
40
1–1/2
17.8
18.4
44
64
11.2
50
2
19.0
19.2
48
76
12.7
65
2-1/2
23.6
28.9
60
92
15.7
80
3
25.9
30.5
65
108
19.0
100
4
27.7
33.0
68
140
22.4
6000Lb
8
1/4
8.1
10.2
27
25
6.4
10
3/8
9.1
10.4
27
32
6.4
15
1/2
10.9
13.6
33
38
7.9
20
3/4
12.7
13.9
38
44
7.9
25
1
14.7
17.3
43
57
11.2
32
1-1/4
17.0
18.4
46
64
11.2
40
1-1/2
17.8
18.4
48
76
12.7
50
2
19.0
19.2
51
92
15.7
65
2-1/2
23.6
28.9
64
108
19.0
80
3
25.9
30.5
68
127
22.4
100
4
27.7
33.0
75
159
28.4
Dimension B is the minimum length of the perfect thread. The length of useful thread (B plus threads with fully formed roots and flat crests) shall not be less than L2 (effective length of external thread) required by the American National Standard for pipe threads (ANSI ASME B1.20.1).
ASME B16.11 Cross Dimensions
Dimensions in Millimeters.
Socket Welding
Nom , DN Pipe Size
B(2)
C(1)
D(2)
A(2)
J (Min)
(Avg)
(Min)
3000Lb
6
1/8
10.8
3.18
3.18
6.9
11.0
9.5
8
1/4
14.2
3.78
3.30
9.3
11.0
9.5
10
3/8
17.6
4.01
3.50
12.6
13.5
9.5
15
1/2
21.8
4.67
4.09
15.8
15.5
9.5
20
3/4
27.2
4.90
4.27
21.0
19.0
12.5
25
1
33.9
5.69
4.98
26.7
22.5
12.5
32
1-1/4
42.7
6.07
5.28
35.1
27.0
12.5
40
1-1/2
48.8
6.35
5.54
40.9
32.0
12.5
50
2
61.2
6.93
6.04
52.5
38.0
16.0
65
2-1/2
73.9
8. 76
7.67
62.7
41.0
16.0
80
3
89.8
9.52
8.30
78.0
57.0
16.0
100
4
115.2
10.69
9.35
102.3
66.5
19.0
6000Lb
16
1/8
10.8
3.96
3.43
4.0
11.0
9 .5
8
1/4
14.2
4.60
4.01
6.4
13.6
9.5
10
3/8
17.6
5.03
4.37
9.2
15.5
9.5
15
1/2
21.8
5.97
5.18
11.8
19.0
9.5
20
3/4
27.2
6.96
6.04
15.6
22.5
12.5
25
1
33.9
7.92
6.93
20.7
27.0
12.5
32
1-1/4
42.7
7.92
6.93
29.5
32.0
12.5
40
1-1/2
48.8
8.92
7.80
34.0
38.0
12.5
50
2
61.2
10.92
9.50
42.9
41.0
16.0
9000Lb
15
1/2
21.8
9.35
8.18
6.4
25.5
9.5
20
3/4
27.2
9.78
8.56
11.1
28.5
12.5
25
1
33.9
11.38
9.96
15.2
32.0
12.5
32
1–1/4
42.7
12.14
10.62
22.8
35.0
12.5
40
1-1/2
48.8
12.70
11.12
28.0
38.0
12.5
50
2
61.2
13.84
12.12
38.2
54.0
16.0
(1) Average socket Wall Thickness around the periphery shall be no less than the listed values. The minimum values are permitted in localized areas.
Dimensions in Millimeters.
Threaded
DN
Nom Pipe
Size
Length of Thread. ( min)
A
H
B(*)
L2(*)
2000Lb
6
1/8
6.4
6.7
21
22
8
1/4
8.1
10.2
21
22
10
3/8
9.1
10.4
25
25
15
1/2
10.9
13.6
28
33
20
3/4
12.7
13.9
33
38
25
1
14.7
17.3
38
46
32
1-1/4
17.0
18.0
44
56
40
1-1/2
17.8
18.4
51
62
50
2
19.0
19.2
60
75
65
2-1/2
23.6
28.9
76
92
80
3
25.9
30.5
86
109
100
4
27.7
33.0
106
146
3000Lb
6
1/8
6.4
6.7
21
22
8
1/4
8.1
10.2
25
25
10
3/8
9.1
10.4
28
33
15
1/2
10.9
13.6
33
38
20
3/4
12.7
13.9
38
46
25
1
14.7
17.3
44
56
32
1-1/4
17.0
18.0
51
62
40
1-1/2
17.8
18.4
60
75
50
2
19.0
19.2
64
84
65
2-1/2
23.6
28.9
83
102
80
3
25.9
30.5
95
121
100
4
27.7
33.0
114
152
6000Lb
6
1/8
6.4
–
6.7
–
25
25
8
1/4
8.1
–
10.2
–
28
33
10
3/8
9.1
–
10.4
–
33
38
15
1/2
10.9
–
13.6
–
38
46
20
3/4
12.7
–
13.9
–
44
56
25
1
14.7
–
17.3
–
51
52
32
1-1/4
17.0
–
18.0
–
60
75
40
1-1/2
17.8
–
18.4
–
64
84
50
2
19.0
–
19.2
–
83
102
65
2–1/2
23.6
–
28.9
–
95
121
80
3
25.9
–
30.5
–
106
146
100
4
27.7
–
33.0
–
114
152
Dimension B is the minimum length of the perfect thread. the length of useful thread (B plus threads with fully formed roots and flat crests) shall not be less than L2 (effective length of external thread) required by American National Standard for pipe threads (ANSI ASME B1.20.1)
ASME B16.11 Full Coupling Dimensions
Dimensions in Millimeters.
Socket Welding
DN
Nom
Pipe
Size
B(2)
C(1)
D(2)
E(2)
j
(Min)
(Avg)
(Min)
3000Lb
6
1/8
10.8
3.18
3.18
6.9
6.5
9.5
8
1/4
14.2
3.78
3.30
9.3
6.5
9.5
10
3/8
17.6
4.01
15.0
12.6
6.5
9.5
15
1/2
21.8
4.67
4.09
15.6
9.5
9.5
20
3/4
27.2
4.90
42.7
21.0
9.5
125
25
1
33.9
5.69
4.98
26.7
12.5
12.5
32
1-1/4
42.7
6.07
5.28
35.1
12.5
12.5
40
1–1/2
46.8
6.35
5.54
40.9
12.5
12.5
50
2
61.2
6.93
6.04
52.5
19.0
16.0
65
2-1/2
73.9
8.76
7.67
62.7
19.0
16.0
80
3
89.8
9.52
8.30
78.0
19.0
16.0
100
4
115.2
10.69
9.35
102.3
19.0
19.0
6000Lb
6
1/8
10.8
3.96
3.43
4.0
6.5
9.5
8
1/4
14.2
4.60
401
6.4
6.5
9.5
10
3/8
17.6
5.03
4.37
9.2
6.5
9.5
15
1/2
21.8
5.97
5.18
11.8
9.5
9.5
20
3/4
27.2
6.96
6.04
15.6
9.5
12.5
25
1
31.9
7.92
6.93
20.7
12.5
12.5
32
1-1/4
42.7
7.92
6.93
29.5
12.5
12.5
40
1-1/2
46.8
6.92
17.80
34.0
12.5
12.5
50
2
61.2
10.92
9.50
42.9
19.0
16.0
9000Lb
15
1/2
21.6
9.35
8.15
6.4
9.5
9.5
20
3/4
27.2
9.78
8.56
11.1
9.5
12.5
25
1
33.9
11.38
9.96
15.2
12.5
12.5
32
1-1/4
42.7
12.14
10.62
22.8
12.5
12.5
40
1-1/2
48.8
12.70
11.12
28.0
12.5
12.5
50
2
61.2
13.84
12.12
38.2
19.0
16.0
(1) Average socket Wall Thickness around the periphery shall be no less than the listed values. The minimum values are permitted in localized areas.
(2) Reducer “C. J. E” in accordance with large size. “D” in accordance with small size. The others are in accordance with each size.
Dimensions Millimeters.
Threaded
DN
Nom.
Pipe Size
Length of Thread. (Min)
w
D
B(*)
L2(*)
3000Lb
6
1/8
6.4
6.7
32
16
8
1/4
8.1
10.2
35
19
10
3/8
9.1
10.4
38
22
15
1/2
10.9
13.6
48
28
20
3/4
12.7
13.9
51
35
25
1
14.7
17.3
60
44
32
1-1/4
17.0
18.4
67
57
40
1-1/2
17.8
18.4
79
64
50
2
19.0
19.2
86
76
65
2-1/2
23.6
28.9
92
92
80
3
25.9
30.5
108
108
100
4
27.7
33.0
121
140
6000Lb
6
1/8
6.4
6.7
32
22
8
1/4
8.1
10.2
35
25
10
3/8
9.1
10.4
38
32
15
1/2
10.9
13.6
48
38
20
3/4
12.7
13.9
51
44
25
1
14.7
17.3
60
57
32
1-1/4
17.0
18.4
67
64
40
1-1/2
17.8
18.4
79
76
50
2
19.0
19.2
86
92
65
2-1/2
23.6
28.9
92
108
80
3
25.9
30.5
108
127
100
4
27.7
33.0
121
159
Dimension B is the minimum length of the perfect Thread. The length of useful thread (B plus threads- with fully formed roots and flat crests) shall not be less than L2 (effective length of external thread) required by American National Standard for pipe threads (ANSI ASME B1_20.1)
ASME B16.11 Half Coupling Dimensions
Dimensions in millimeters
Socket Welding
DN
Nom. Pipe Size
B(2)
C(1)
D
F
j
(Min)
(Avg)
(Min)
3000Lb
6
1/8
10.8
3.18
3.18
6.9
16.0
9.5
8
1/4
14.2
3.78
3.30
9.3
16.0
9.5
10
3/8
17.6
4.01
3.50
12.6
17.5
9.5
15
1/2
21.8
4.67
4.09
15.8
22.5
9.5
20
3/4
27.2
4.90
4.27
21.0
24.0
12.5
25
1
33.9
5.69
4.98
26.7
28.5
12.5
32
1–1/4
42.7
6.07
5.28
35.1
30.0
12.5
40
1–1/2
48.8
6.35
5.54
40.9
32.0
12.5
50
2
61.2
6.93
6.04
52.5
41.0
16.0
65
2-1/2
73.9
8. 76
7.67
62.7
43.0
16.0
80
3
89.8
9.52
8.30
77.9
44.5
16.0
100
4
115.2
10.69
9.35
102.3
48.0
19.0
6000Lb
6
1/8
10.8
3.96
3.43
4.0
16.0
9.5
8
1/4
14.2
4.60
4.01
6.4
16.0
9.5
10
3/8
17.6
5.03
4.37
9.2
17.5
9.5
15
1/2
21.8
5.97
5.18
11.8
22.5
9.5
20
3/4
27.2
6.96
6.04
15.6
24.0
12.5
25
1
33.9
7.92
6.93
20.7
28.5
12.5
32
1-1/4
42.7
7.92
6.93
29.5
30.0
12.5
40
1-1/2
48.8
8.92
7.80
34.0
32.0
12.5
50
2
61.2
10.92
9.50
42.9
41.0
16.0
9000Lb
15
1/2
21.8
9.35
8.18
6.4
22.5
9.5
20
3/4
27.2
9.78
8.56
11.1
24.0
12.5
25
1
33.9
11.38
9.96
15.2
28.5
12.5
32
1-1/4
42.7
12.14
10.62
22.8
30.0
12.5
40
1-1/2
48.8
12.70
11.12
28.0
32.0
12.5
50
2
61.2
13.84
12.12
38.2
41.0
16.0
Average socket Wall Thickness around the periphery shall be no less than the listed values. The minimum values are permitted in localized areas
Dimensions in millimeters.
Threaded
DN
Nom Pipe Size
Length of Thread. (Min)
W
D
B(*)
L2(*)
3000Lb
6
1/8
6.4
6.7
32
16
8
1/4
8.1
10.2
35
19
10
3/8
9.1
10.4
38
22
15
1/2
10.9
13.6
48
28
20
3/4
12.7
13.9
51
35
25
1
14.7
17.3
60
44
32
1-1/4
17.0
18.4
67
57
40
1-1/2
17.8
18.4
79
64
50
2
19.0
19.2
86
76
65
2-1/2
23.6
28.9
92
92
80
3
25.9
30.5
108
108
100
4
27.7
33.0
121
140
6000Lb
6
1/8
6.4
6.7
32
22
8
1/4
8.1
10.2
35
25
1 0
3/8
9.1
10.4
38
32
15
1/2
10.9
13.6
48
38
20
3/4
12.7
13.9
51
44
25
1
14.7
17.3
60
57
32
1-1/4
17.0
18.4
67
64
40
1-1/2
17.8
18.4
79
76
50
2
19.0
19.2
86
92
65
2-1/2
23.6
28.9
92
108
80
3
25.9
30.5
108
127
100
4
27.7
33.0
121
159
Dimension B is the minimum length of the perfect thread. The length of useful thread (B plus threads with fully formed root and, flat crests) shall not be less than L2 (effective length of external thread) required by American National Standard for pipe threads (ANSI I ASME B1.20.1).
ASME B16.11 Hex Head Plug Dimensions
Dimensions in Millimeters
Hex Head Plug
DN
Nom. Pipe Size
A (Min)
F (Nom)
H (Min)
6
1/8
10
11.11
6
8
1/4
11
15.88
6
10
3/8
13
17.46
8
15
1/2
14
22.23
8
20
3/4
16
26.99
10
25
1
19
34.93
10
32
1-1/4
21
44.45
14
40
1-1/2
21
50.80
16
50
2
22
63.50
18
65
2-1/2
27
76.20
19
😯
3
28
88.90
21
100
4
32
117.48
25
Dimensions in Millimeters.
Hex Head gushing
DN
Nom. Pipe Size
A (Min)
F (Non)
G (Min)
8
1/4
11
15.88
3
10
3/8
13
17.46
4
15
1/2
14
22.23
5
20
3/4
16
26.99
6
25
1
19
34.93
6
32
1-1/4
21
44.45
7
40
1-1/2
21
50.80
8
50
2
22
63.50
9
65
2-1/2
27
76.20
10
80
3
28
88.90
10
100
4
32
117.48
13
CAUTIONARY NOTE REGARDING HEX BUSHINGS.
Hex Head Bushings of one-size reduction should not be used in services where they might be subject to harmful loads and forces than internal’ pressures.
ASME B16.11 Round Head Plug Dimensions – Forged Fittings Dimensions
Dimensions in Millimeters.
Square Head Plug
DN
Nom. Pipe Size
A (Min)
B (Min)
C (Min)
6
1/8
10
6
7.15
8
1/4
11
6
9.55
10
3/8
13
8
11.11
15
1/2
14
10
14.29
20
3/4
16
11
15.88
25
1
19
13
20.64
32
1-1/4
21
14
23.81
40
1-1/2
21
16
28.58
50
2
22
18
33.27
65
2-1/2
27
19
38.10
80
3
28
21
42.86
100
4
32
25
63.50
Dimensions in Millimeters
Round Head Plug
DN
Nom_ Pipe
Size
E (Nom)
D (Min)
6
1/8
10
35
8
1/4
14
41
10
3/8
18
41
15
1/2
21
44
20
3/4
27
44
25
1
33
51
32
1-1/4
43
51
40
1 -1/2
48
51
50
2
60
64
65
2-1/2
73
70
80
3
89
70
100
4
114
76
(1) ASME B16.11-2016 SIZE .2″ DATA “C”, WE CONVERT INCH DATA INTO MILLIMETERS.
ASME B16.11 Square Head Plug Dimensions
Dimensions in Millimeters.
Square Head Plug
DN
Nom. Pipe Size
A (Min)
B (Min)
C (Min)
6
1/8
10
6
7.15
8
1/4
11
6
9.55
10
3/8
13
8
11.11
15
1/2
14
10
14.29
20
3/4
16
11
15.88
25
1
19
13
20.64
32
1-1/4
21
14
23.81
40
1-1/2
21
16
28.58
50
2
22
18
33.27
65
2-1/2
27
19
38.10
80
3
28
21
42.86
100
4
32
25
63.50
Dimensions in Millimeters
Round Head Plug
DN
Nom_ Pipe
Size
E (Nom)
D (Min)
6
1/8
10
35
8
1/4
14
41
10
3/8
18
41
15
1/2
21
44
20
3/4
27
44
25
1
33
51
32
1-1/4
43
51
40
1 -1/2
48
51
50
2
60
64
65
2-1/2
73
70
80
3
89
70
100
4
114
76
(1) ASME B16.11-2016 SIZE .2″ DATA “C”, WE CONVERT INCH DATA INTO MILLIMETERS.
ASME B16.11 90D Street Elbow Dimensions: Forged Fittings Dimensions
Dimensions in Millimeters.
DN
Nom. Pipe
Size
H
A
J
G1 (Min)
G2(1) (Min)
B(2) (Min)
L2 (2) (Min)
L (MN)
3000Lb
6
1/6
19
19
25
3.18
2.74
6.4
6.7
10.0
8
1/4
25
22
32
3.30
3.22
8.1
10.2
11.0
10
3/8
32
25
38
3.15
3.50
9.1
10.4
13.0
15
1/2
38
28
41
4.09
4.16
10.9
13.6
14.0
20
3/4
44
35
48
4.32
4.88
12.7
13.9
16.0
25
1
51
44
57
4.98
5.56
14.7
17.3
19
32
1-1/4
62
51
66
5.28
5.56
17.0
18.0
21.0
40
1-1/2
70
54
71
5.56
6.25
17.8
18.4
21.0
50
2
84
64
84
7.14
7.64
19.0
19.2
22.0
6000Lb
5
1/8
25
22
32
5.08
4.22
6.4
6.7
10.0
8
1/4
32
25
38
5.66
5.28
8.1
10.2
11.0
10
3/8
38
28
41
6.98
5.59
9.1
10.4
13.0
15
1/2
44
35
48
8.15
6.53
10.9
13.6
14.0
20
3/4
51
44
57
8.53
6.86
12.7
13.9
16.0
25
1
62
51
66
9.93
7.95
14.7
17.3
19.0
32
1-1/4
70
54
71
10.59
8.48
17.0
18.0
21.0
40
1-1/2
84
64
84
11.07
8.89
17.8
18.4
21.0
50
2
102
83
105
12.09
9.70
19.0
19.2
22.0
(1) Wall thickness before threading
(2)Dimension B is the minimum length of the perfect thread. The length of useful thread (B plus threads with fully formed roots and flat crests) shall not be less than L2 (effective length of external thread) required by American National Standard for pipe Threads (ANSI / ASME B1.20.1)
ASME B16.11 Tee Dimensions – Forged Fittings Dimensions
Forged Fittings Dimensions Dimensions in Millimeters.
Socket Welding
DN
Nom. Pipe
Size
B(2)
c(1) (Avg) (Min)
D(2)
A(2)
G (Min)
J (Min)
3000Lb
6
1/8
10.8
3.18
3.18
6.9
11.0
2.41
9.5
8
1/4
14.2
3.78
3.30
9.3
11.0
3.02
9.5
10
3/8
17.6
4.01
3.50
12.6
13.5
3.20
9.5
15
1/2
21.8
4.67
4.09
15.8
15.5
3.73
9.5
20
3/4
27.2
4.90
4.27
21.0
19.0
3.91
12.5
25
1
33.9
5.69
4.98
26.7
22.5
4.55
12.5
32
1-1/4
42.7
6.07
5.28
35.1
27.0
4.85
12.5
40
1-1/2
48.8
6.35
5.54
40.9
32.0
5.08
12.5
50
2
61.2
6.93
6.04
52.5
38.0
5.54
16.0
65
2-1/2
73.9
8.76
7.87
62.7
41.0
7.01
16.0
80
3
89.8
9.52
8.30
78.0
57.0
7.62
16.0
100
4
115.2
10.69
9.35
102.3
66.5
8.56
19.0
6000Lb
6
1/8
10.8
3.96
3.43
4.0
11.0
3.15
9.5
8
1/4
14.2
4.60
4.01
6.4
13.5
3.68
9.5
10
3/8
17.6
5.03
4.37
9.2
15.5
4.01
9.5
15
1/2
21.8
5.97
5.18
11.8
19.0
4.78
9.5
20
3/4
27.2
6.96
6.04
15.6
22.5
5.56
12.5
25
1
33.9
7.92
6.93
20.7
27.0
6.35
12.5
32
1-1/4
42.7
7.92
6.93
29.5
32.0
6.35
12.5
40
1-1/2
48.8
8.92
7.80
34.0
38.0
7.14
12.5
50
2
61.2
10.92
9.50
42.9
41.0
8.74
16.0
9000Lb
15
1/2
21.8
9.35
8.18
6.4
25.5
7.47
9.5
20
3/4
27.2
9.78
8.56
11.1
28.5
7.82
12.5
25
1
33.9
11.38
9.96
15.2
32.0
9.09
12.5
32
1-1/4
42.7
12.14
10.62
22.8
35.0
9.70
12.5
40
1-1/2
48.8
12.70
11.12
28.0
38.0
10.15
12.5
50
2
61.2
13.84
12.12
38.2
54.0
11.07
16 0
(1) Average socket wall Thickness around the periphery shall be no less than the listed values. The minimum values are permitted in localized areas
Dimensions in Millimeters.
Threaded
DN
Norm Pipe Size
Length of Thread.
A
G (Min)
H
B
L2
2000Lb
6
1/8
6.4
6.7
21
3.18
22
8
1/4
8.1
10.2
21
3.18
22
10
3/8
9.1
10.4
25
3.18
25
15
1/2
10.9
13.6
28
3.18
33
20
3/4
12.7
13.9
33
3.18
38
25
1
14.7
17.3
38
3.68
46
32
1-1/4
17.0
18.0
44
3.89
56
40
1-1/2
17.8
18.4
51
4.01
62
50
2
19.0
19.2
60
4.27
75
65
2-1/2
23.6
28.9
76
5.61
92
80
3
25.9
30.5
86
5.99
109
100
4
27.7
33.0
106
6.55
146
3000Lb
5
1/8
6.4
6.7
21
3.18
22
8
1/4
8.1
10.2
25
3.30
25
10
3/8
9.1
10.4
28
3.51
33
15
1/2
10.9
13.6
33
4.09
38
20
3/4
12.7
13.9
38
4.32
46
25
1
14.7
17.3
44
4.98
56
32
1-1/4
17.0
18.0
51
5.28
62
40
1-1/2
17.8
18.4
60
5.56
75
50
2
19.0
19.2
64
7.14
84
65
2-1/2
23.6
28.9
83
7.65
102
80
3
25.9
30.5
95
8.84
121
100
4
27.7
33.0
114
11.18
152
6000Lb
6
1/8
6.4
6.7
25
6.35
25
8
1/4
8.1
10.2
28
6.60
33
10
3/8
9.1
10.4
33
6.98
38
15
1/2
10.9
13.6
38
8.15
46
20
3/4
12.7
13.9
44
8.53
56
25
1
14.7
17.3
51
9.93
62
32
1-1/4
17.0
18.0
60
10.59
75
40
1-1/2
17.8
18.4
64
11.07
84
50
2
19.0
19.2
83
12.09
102
65
2-1/2
23.6
28.9
95
15.29
121
80
3
25.9
30.5
106
16.64
146
100
4
27.7
33.0
114
18.67
152
Dimension B is the minimum length of the perfect thread. The length Of useful thread (B plus Threads with fully formed roots and flat crests) shall not be less than the L2 Reflective length of external thread)required by American National Standard for pipe threads (ANSI ASME B1.20.1).
ASME B16.11 Socket Weld And Threaded Forged Fittings
PED Approved ANSI B16.11 Forged Fittings Manufacturers In India, Check ASME B16.11 Fittings Dimensions Chart.
A Fitting helps in joining multiple pipes to form a pipeline system. The pipes can be of different sizes and are used for measuring or regulating the flow. The ASME B16.11 Fittings are a standard in the world of forged steel fittings. It includes socket weld and threaded types.
We manufacture:
We manufacture them with different types of material like alloy steel, stainless steel, Carbon Steel Threaded Fittings, aluminum, copper, etc., depending on the purpose of usage. These fittings are great for environments that possess a chance of fire hazard. The Stainless Steel Threaded Fittings are one of the oldest methods of joining and are primarily used in places where welding is not an option.
The ASME B16.11 Pipe Fittings Dimensions are perfect for providing quick and swift piping connections at an affordable price. Various industries like Chemical, Machineries and Equipment, Power Stations, etc., uses ASME B16.11 Socket Weld Fittings for safe and seamless operations.
ASME B16.11 Socket Weld And Threaded Forged Fittings
The ANSI B16.11 Threaded Pipe Fittings, on the other hand, are used in non-critical situations like industrial cooling systems, fire protection, etc.
There are different types of threaded fittings available in the market, like threaded elbow for changing the flow direction, threaded tee with three outlets, threaded cap for blocking the flow at the end of the pipe, etc. Each of them is designed for specific purposes.
We are one of the top Forged Fittings Manufacturers In India. We produce high-quality products at a very reasonable price according to the requirements of the client.
ASME B16.11 Socket Weld And Threaded Forged Fittings
Forged Fittings Exporter Manufacturer in UAE, Australia, Bahrain, Europe, Germany, Kuwait, India, Qatar & More
Forged Fittings Exporter Manufacturer in UAE, Australia, Bahrain, Europe, Germany, Kuwait, India, Qatar & More: Creative Piping Solutions envision ourselves to be one of the most Reliable and Admired ASME B16.11 Forged Fittings Manufacturing companies in India by providing quality products to our valued customers in the least time.
We believe in adopting and Innovating Environment-friendly methods and materials. We offer a commendable range of Forged Fittings for distinguished clients at competitive prices, and we believe in Quality. We supply these Forged Fittings to various Industries publicly & Private Sector, Government & Semi-Government Department everywhere in India.
ASME 16.11 Forged Fittings:
ASME 16.11 Forged Fittings are available as Socket Weld Pipe Fittings and Threaded Pipe Fittings. Forged fittings are made from A105 (Carbon Steel), stainless steel, or nickel-base alloy. Forged Threaded Fittings arethicker, heavier, and are intended for heavy industrial use. Cast-iron Pipe Fittings are available in 2000#, 3000#, 6000#, and 9000# pressure classes. These Forged Threaded Fittings are more common in 3000# and 6000# (90% of the time).
Forged Iron Threaded: Forged Fittings Manufacturers
Forged Iron Threaded or Socket Weld Fittings are costlier in sizes bigger than 2 inches (ca. 5 cm) compared to their malleable iron or butt weld counterparts. Threaded Pipe Fittings and Socket weld Pipe Fittings are available up to 4 inches (ca. 10 cm) nominal pipe size. See the table below for the pressure and temperature rating of those Fittings. Forging steel is a process that makes very strong fittings. The heated steel is then machined into the forged steel fitting.
Forged Fittings Manufacturing Standards
ASME B16.11 – Socket Welding and Threaded Forged Fittings.
MSS SP-43 – Wrought and Fabricated Butt-Welding Fittings for Low Pressure, Corrosion Resistant Applications.
MSS SP-95 – Swage(d) Nipples and Bull Plugs.
BS3799 – Specification for Steel pipe fittings, screwed and Socket-welding for the petroleum industry.
ASTM A182 – ASME SA182 – Standard Specification for Wrought Austenitic Stainless Steel Piping Fittings.