Understanding your choice of forged nozzles options
Selecting the appropriate forged nozzle is critical for ensuring your industrial processes’ efficiency, reliability, and safety. By understanding the various types of forged nozzles, the materials used in their construction, and the factors to consider when choosing the right nozzle for your application, you can optimize your system’s performance and minimize potential issues. Partnering with an experienced forged nozzle manufacturer is crucial for obtaining the best solution for your unique requirements.
Custom forged nozzles offer a tailored solution designed and manufactured to address unique challenges and performance criteria. When considering custom-forged nozzles, working with a reputable manufacturer with experience in designing and producing nozzles for your specific industry is essential.
What is a forged nozzle?
When the pressure is too high to exceed the pipeline, forged nozzles replace the pipeline. Forged nozzles are usually part of pressure vessels.
Forged nozzles usually bear various mechanical loads and may withstand high temperatures and high pressure, so the requirements for their forgings are also very strict. The quality of the manufacturing of forged nozzles directly affects the quality and lifespan of subsequent processing equipment, and its importance is self-evident.
Types of Forged Nozzles
Forged nozzles are vital in various industries and applications, from welding and fluid dispersion to internal combustion engines. Understanding the different types of nozzles and their specific uses enables industry professionals to select the appropriate nozzle for their unique requirements, ultimately improving efficiency, performance, and productivity.
Welding nozzles are essential in metal fabrication processes, allowing for the precise and controlled joining of metals through welding techniques. These nozzles come in various shapes and sizes, each designed to cater to a specific welding method. Some common welding techniques that utilize welding nozzles include:
Gas Metal Arc Welding (GMAW);
Gas Tungsten Arc Welding (GTAW);
Shielded Metal Arc Welding (SMAW);
Gas Metal Arc Welding (GMAW).
GMAW, known as Metal Inert Gas (MIG) welding, employs a consumable wire electrode and a shielding gas to create a weld. Welding nozzles used in GMAW is responsible for directing the shielding gas over the weld pool, ensuring a stable and consistent welding process.
Gas Tungsten Arc Welding (GTAW)
GTAW, or Tungsten Inert Gas (TIG) welding, uses a non-consumable tungsten electrode to create the weld. In this process, welding nozzles play a crucial role in controlling shielding gas flow, which protects the weld area from atmospheric contamination.
Shielded Metal Arc Welding (SMAW)
SMAW, commonly called stick welding, uses a flux-coated electrode to create the weld. Welding nozzles in SMAW applications help maintain a stable and consistent arc, contributing to a high-quality weld.
Spray nozzles are indispensable components in applications requiring the dispersion of liquids or the mixing of fluids. These nozzles can be broadly categorized into different types based on their spray patterns and flow characteristics:
Flat fan nozzles;
Full cone nozzles;
Hollow cone nozzles.
Flat Fan Nozzles
Flat fan nozzles produce a fan-shaped spray pattern, making them suitable for cleaning, cooling, and surface treatment applications. These nozzles are typically used in agriculture, automotive, and food processing industries.
Full Cone Nozzles
Full cone nozzles generate a circular spray pattern, offering even liquid distribution across the spray area. They are commonly used in dust suppression, gas scrubbing, and fire protection applications.
Hollow Cone Nozzles
Hollow cone nozzles create a ring-shaped spray pattern, providing a fine droplet size and uniform distribution. These nozzles are ideal for chemical processing, gas cooling, and air humidification applications.
Venturi nozzles are utilized in fluid dynamics applications, leveraging the Venturi effect to increase the velocity of a fluid as it passes through the nozzle. Some common applications for Venturi nozzles include:
Vacuum pump systems.
In flow measurement applications, Venturi nozzles accurately measure fluid flow rates by creating a pressure difference between the inlet and the nozzle’s throat. This pressure difference is proportional to the flow rate, allowing for precise measurements.
Ejector systems use Venturi nozzles to generate a vacuum or to mix two fluids. The Venturi effect creates a high-velocity flow that entrains a secondary fluid, resulting in efficient mixing and transfer.
Vacuum Pump Systems
Venturi nozzles are often employed in vacuum pump systems due to their ability to create a vacuum without mechanical parts. These systems rely on the Venturi effect to generate a vacuum, enabling the removal of air or other gases from a confined space.
Injector nozzles are critical components in internal combustion engines, facilitating the precise delivery of fuel into the combustion chamber. These nozzles come in various designs, such as:
Pintle nozzles utilize a protruding needle, or pintle, positioned within the nozzle orifice. When the injector is activated, the pintle lifts, allowing fuel to flow through the nozzle and into the combustion chamber. Pintle nozzles offer excellent atomization and rapid response times, making them suitable for many automotive applications.
Hole-type nozzles, also known as multi-hole nozzles, feature several small orifices through which fuel is injected into the combustion chamber. This design provides a more uniform fuel distribution and superior atomization, improving combustion efficiency and reducing emissions.
Disc-type nozzles utilize a rotating disc with orifices to distribute fuel into the combustion chamber. The disc’s rotation ensures an even fuel distribution, contributing to enhanced combustion efficiency and reduced emissions. These nozzles are commonly used in high-performance and diesel engines.
The most common forged nozzles used in the oil, gas, and petrochemical industries are reinforced long welding necks, standard long welding flanges, or special flanges that will be welded to the shell. We can achieve various cylindrical, spherical, conical, or elliptical radii shapes.
Materials Used in Forged Nozzles
Forged nozzles can be made from various materials, each with unique properties suited for specific applications. Some common materials include:
|Titanium forged nozzles||ASTM B381 / ASME SB381, Titanium Gr. 1, Titanium Gr. 2, Titanium Gr. 4, Titanium Gr. 5, Titanium Gr. 7, ASTM R50250/GR.1| R50400/GR.2 | R50550/GR.3 | R50700/GR.4 | GR.6 |R52400/GR.7 | R53400/GR.12 | R56320/GR.9 |R56400/GR.5|
|Copper forged nozzles||T1, T2, C10100, C10200, C10300, C10400, C10500, C10700, C10800, C10910,C10920, TP1, TP2, C10930, C11000, C11300, C11400, C11500, C11600, C12000,C12200, C12300, TU1, TU2, C12500, C14200, C14420, C14500, C14510, C14520, C14530, C17200, C19200, C21000, C23000, C26000, C27000, C27400, C28000, C33000, C33200, C37000, C44300, C44400, C44500, C60800, C63020, C68700, C70400, C70600, C70620, C71000, C71500, C71520, C71640, etc|
|Copper Nickel forged nozzles||ASTM / ASME SB 61 / 62 / 151 / 152, Copper Nickel 90/10 (C70600 ), Cupro Nickel 70/30 (C71500), UNS C71640|
|Carbon Steel forged nozzles||ASTM/ASME A/SA105 A/SA105N & A/SA216-WCB, DIN 1.0402, DIN 1.0460, DIN 1.0619, Die Steel, ASTM A105 / ASME SA105, A105N, ASTM A350 LF2 / ASME SA350, High Yield CS ASTM A694 / A694 (F52 F56 F60 F65 F70 F80)|
|Stainless Steel forged nozzles||ASTM/ASME A/SA182 F304, F304L, F316, F316L, ASTM/ASME A/SA351 CF8, CF3, CF8M, CF3M, DIN 1.4301, DIN 1.4306, DIN 1.4401, DIN 1.4404, DIN 1.4308, DIN 1.4408, DIN 1.4306, DIN 1.4409|
|Alloy Steel forged nozzles||ASTM A182 / ASME SA182 F5, F9, F11, F12, F22, F91|
|Hastelloy forged nozzles||ASTM B564 / ASME SB564, Hastelloy C276 (UNS N10276), C22 (UNS N06022), C4, C2000, B2, B3, X|
|Brass forged nozzles||3602 / 2604 / H59 / H62 / etc.|
|Inconel forged nozzles||ASTM B564 / ASME SB564, Inconel 600, 601, 625, 718, 783, 690, x750|
|Monel forged nozzles||ASTM B564 / ASME SB564, Monel 400 (UNS No. N04400), Monel 500 (UNS No. N05500)|
|Duplex forged nozzles||S31803 / S32205 A182 Gr F51 / F52 / F53 / F54 / F55 / F57 / F59 / F60 / F61|
|Super Duplex forged nozzles||S32750 / S32760 A182 Gr F51 / F52 / F53 / F54 / F55 / F57 / F59 / F60 / F61|
|Alloy 20 forged nozzles||ASTM B462 / ASME SB462, Carpenter 20 Alloy, Alloy 20Cb-3|
|Aluminium forged nozzles||5052 /6061/ 6063 / 2017 / 7075 / etc.|
|Nickel forged nozzles||ASTM B564 / ASME SB564, Nickel 200, Nickel 201, Nickel 205, Nickel 205LC|
|Nimonic forged nozzles||Nimonic 75, Nimonic 80A, Nimonic 90|
|Other forged nozzlesmaterial||Tin bronze, Alumunum bronze, Lead bronze|
|Incoloy forged nozzles||ASTM B564 / ASME SB564, Incoloy 800, 800H, 800HT (UNS N08800), 825 (UNS N08825), 925|
|254 Smo forged nozzles||ASTM A182 / ASME SA182, SMO 254/6Mo, UNS S31254, DIN 1.4547|
Dimensions of Forged Nozzles
The dimensions of forged nozzles, specifically diameter, thickness, and height, are critical when selecting the appropriate nozzle for a specific application. Engineers and technicians can make informed decisions that optimize system efficiency and durability by understanding the relationship between these dimensions and the nozzle’s performance.
The Significance of Nozzle Diameter
The diameter of a forged nozzle is a crucial factor in its overall performance. Nozzle diameters can range from small sizes for precise applications to larger diameters for high-flow systems. The appropriate diameter depends on the specific requirements of a project and must be carefully considered to ensure optimal results.
Effect on Flow Rate: The diameter of a nozzle directly impacts the flow rate of fluids or gases passing through it. A larger diameter allows for higher flow rates, while a smaller diameter restricts the flow, providing a more controlled release.
Influence on Pressure: The diameter of a forged nozzle also affects the pressure of the fluid or gas passing through it. A smaller diameter results in higher pressure, while a larger diameter creates lower pressure. This relationship is essential when determining the appropriate nozzle size for a particular application.
Impact on Velocity: The diameter of a nozzle influences the velocity of the fluid or gas being transported. A smaller diameter increases velocity, while a larger diameter decreases it. Selecting the correct diameter is vital for applications that require specific velocity levels.
Understanding Nozzle Thickness
The thickness of a forged nozzle is another vital dimension to consider. A nozzle’s thickness directly affects its structural integrity, durability, and resistance to corrosion and wear.
Structural Integrity: A thicker nozzle offers increased structural integrity, ensuring it can withstand high pressure, temperature, and mechanical stress. This added strength is vital for applications in demanding environments, such as power plants or chemical processing facilities.
Durability: Nozzles with greater thickness are more durable and resistant to wear, corrosion, and erosion. This increased longevity means thicker nozzles require less frequent replacement, reducing maintenance costs and downtime.
Thermal Expansion and Contraction: Thicker nozzles are more resistant to the effects of thermal expansion and contraction, which can cause deformation or cracking. This added resilience is essential for applications that involve significant temperature fluctuations.
The Importance of Nozzle Height
The height of a forged nozzle is a key dimension that affects its overall performance and compatibility with various systems.
Integration with Piping Systems: The height of a nozzle determines its compatibility with different piping systems. A nozzle with the appropriate height ensures a seamless fit and prevents leaks, ensuring optimal performance.
Effect on Flow Patterns: The height of a nozzle can influence the flow patterns of fluids or gases passing through it. A taller nozzle can create more turbulent flow, while a shorter nozzle can produce more laminar flow. The desired flow pattern depends on the application and must be considered when selecting a nozzle.
Impact on Heat Transfer: The height of a forged nozzle can affect heat transfer within a system. A taller nozzle can enhance heat transfer by increasing the flow of coolant around the nozzle, while a shorter nozzle may result in reduced heat transfer due to limited coolant flow.
The Forging Process of forged nozzles
Forged nozzles are crucial in the interconnection between pressure vessels, heat exchangers, or reactors and the rest of the process.
Forged nozzles or pipe joints, pipe fittings (referred to as nozzles) for pressure equipment such as boilers, pressure vessels, pressure pipelines, and nuclear power equipment are often processed using forged or round steel materials, in addition to seamless steel pipes of various specifications and materials. The manufacturing quality is significant for the long-term, safe, and stable use of pressure equipment.
1. Selection of Raw Materials
The manufacturing process begins with the selection of appropriate raw materials. The chosen material should have the necessary properties, such as strength, corrosion resistance, and heat resistance, to withstand the application’s operating conditions. Common materials include carbon steel, stainless steel, alloy steel, and nickel-based alloys.
2. Steel Testing and Verification
Before production commences, raw materials must undergo rigorous testing to verify their chemical composition and ensure they meet the required specifications. This step is crucial for guaranteeing the quality and performance of the final product.
3. Steel Marking and Cutting
Next, steel ingots and billets are cut into suitable sizes and weights according to product requirements. This process involves using various cutting tools, such as saws and torches, to achieve the desired dimensions.
4. Heating and Tempering
The cut raw materials are then heated to specific temperatures determined by the material requirements. This step prepares the metal for the forging process by increasing its ductility and reducing internal stresses.
5. Forging of Nozzles
The heated metal is placed into forging equipment, undergoing various processes such as piercing, elongation, and thickness reduction. Real-time nozzle size and temperature control monitoring is achieved through infrared thermometers, ensuring precise forging.
6. Forging Inspection
Once the forging process is complete, a preliminary inspection of the nozzle blank is conducted. This inspection focuses on appearance and size, identifying defects or cracks, and verifying that the blank allowance meets the drawing requirements.
7. Insulation and Normalizing
After inspection, the nozzles undergo insulation and normalizing treatments to refine the grain size, unify the structure, and eliminate internal stress. This step helps to improve any overheating defects and prepare the nozzles for the final heat treatment.
8. Rough Machining of Nozzles
The nozzles are then subjected to rough machining and processed according to product requirements. This step leaves a margin for precision machining, which will occur later in the process.
9. Heat Treatment
A comprehensive heat treatment process improves the nozzle’s internal structure and performance. This step involves heating the nozzle to a predetermined temperature, holding it for a specific duration, and cooling it at a controlled rate. The heat treatment process can include normalizing, quenching, and tempering.
After rough machining and heat treatment, the nozzles are precision-machined using CNC machine tools. This step ensures that the nozzles’ dimensional accuracy and surface finish meet the requirements specified in the drawings.
11. Product Appearance Inspection
The finished nozzles are inspected to verify their appearance meets the size specifications provided in the customer’s drawings. Additional tests, such as ultrasonic testing (UT), magnetic particle testing (MT), hardness testing, and carburization testing, may be performed as required.
12. Mechanical Performance Testing
To ensure customer satisfaction, mechanical performance testing is conducted on the nozzles. This testing evaluates yield, tensile, impact, and metallographic properties, confirming that the nozzles meet the necessary performance standards.
13. Surface Treatment and Packaging
After passing all quality inspections, the finished nozzles are treated with rust prevention and painting processes to protect them from environmental factors. They are then carefully packaged and stored in the finished product warehouse, ready for shipment.
14. Loading and Shipping
Finally, the nozzles are transferred from the finished product warehouse and prepared for loading and shipping to the customer. This step involves selecting the most efficient and reliable transportation method to ensure the nozzles reach their destination safely and on time.
The manufacturing process of forged nozzles is complex and intricate, requiring precision, expertise, and stringent quality control measures. By following these steps, manufacturers can produce high-quality forged nozzles that meet the demanding requirements of various industries. Understanding this process can help customers appreciate the value and importance of these critical components in their applications.
How to purchase the correct forged nozzles?
To purchase the correct forged nozzles, there are several factors to take into account:
Material of Forged Nozzles
Selecting the right material is crucial for your project. Common materials for forged nozzles include carbon steel, stainless steel, alloy steel, aluminum, copper, and titanium. Each material has its advantages and disadvantages, so choosing the one that best suits your application is essential.
Size and Shape of Forged Nozzles
The size and shape of the forged nozzle should match the requirements of your project. Consider the dimensions, such as diameter, or thickness. Custom sizes and shapes can also be requested from the supplier.
Tolerance and Straightness of Forged Nozzles
Tolerance refers to the allowable variation in dimensions, while straightness is the degree to which the nozzle is free of bends or twists. Higher tolerance and straightness standards ensure better quality and performance of the forged nozzles. Make sure to specify your desired tolerance and straightness requirements when purchasing.
Surface Finish of Forged Nozzles
The surface finish of a forged nozzle can affect its performance, corrosion resistance, and appearance. The choice of surface finish depends on your application and aesthetic preferences.
Heat Treatment of Forged Nozzles
Heat treatment can significantly alter the mechanical properties of the forged nozzles, such as hardness, strength, and ductility. Depending on your application, you may require specific heat treatment processes like annealing, normalizing, quenching, or tempering. Ensure your supplier can provide your forged nozzles with the necessary heat treatment services.
Quality Certifications of Forged Nozzles
Quality certifications, such as ISO, ASTM, or ASME, ensure that the forged nozzles meet specific industry standards and requirements. Look for suppliers with these certifications to guarantee you’re purchasing high-quality products.
Budget and Pricing of Forged Nozzles
The cost of forged nozzles can vary depending on the material, size, and additional processing. Compare prices from different suppliers and consider your budget while making your decision. Keep in mind that quality should not be compromised for the sake of lower prices.
Purchasing the correct forged nozzles is crucial for the success of your project. By understanding the forging process, considering factors like material, size, shape, and quality certifications, and choosing the right supplier, you can ensure that you’re investing in high-quality products that meet your needs. With the right forged nozzles, you can enhance the performance, durability, and longevity of your applications, contributing to the overall success of your project.
How to select forged nozzles manufacturer?
Selecting the manufacturer of the right forged nozzle requires careful consideration of various factors, including quality, experience, capacity, customization, certification, pricing, location, reputation, and additional services offered. By considering all these aspects, you can make an informed decision and choose a reliable and experienced manufacturer that will deliver high-quality forged nozzles for your project.
Factors to Consider when Selecting a Forged Nozzles Manufacturer
The quality of the forged nozzles is of paramount importance. Always choose a manufacturer that adheres to strict quality control standards and utilizes advanced technology to produce high-quality forged nozzles.
The manufacturer’s experience in the industry is an essential factor to consider. An experienced manufacturer will have the knowledge and expertise to produce high-quality forged nozzles and meet your requirements.
The production capacity of the manufacturer should be taken into account. Ensure the manufacturer can handle your order volume, whether a small or large-scale project.
Your project may require customized forged nozzles with unique specifications. Choose a manufacturer offering customization options, ensuring they meet your specific needs.
Check if the manufacturer holds relevant certifications, such as ISO or AS9100. These certifications are an indication of their commitment to quality and industry standards.
While pricing should not be the sole determining factor, it is essential to consider the cost of the forged nozzles. Select a manufacturer that offers competitive pricing without compromising quality.
The location of the manufacturer can affect shipping times and logistics costs. Opt for a conveniently located manufacturer that can deliver the forged nozzles within your desired timeframe.
Evaluating a Manufacturer’s Reputation
A. Customer Reviews
Read through customer reviews and testimonials to understand the manufacturer’s reputation. Positive feedback from satisfied customers is a good indication of the manufacturer’s reliability and commitment to quality.
B. Industry Recognition
Look for manufacturers that have received industry awards or recognition, which indicates their dedication to excellence and innovation in forged nozzles manufacturing.
Additional Services Offered
A. In-House Testing
Choose a manufacturer that offers in-house testing and inspection services. This ensures that the forged nozzles meet your specifications and quality requirements before shipping them.
B. On-Time Delivery
On-time delivery is crucial for any project. Select a manufacturer with a track record of delivering orders on time to avoid potential delays or disruptions to your project schedule.
C. After-Sales Support
After-sales support is an essential aspect of any business relationship. Choose a manufacturer that offers excellent customer service and support, including addressing any concerns or issues you may have with the forged nozzles after delivery.
Why Choose Guanxin to Be Your forged nozzle Supplier?
At Guanxin, we pride ourselves on providing top-notch forged nozzles that meet industry standards. Our state-of-the-art manufacturing facilities and experienced team of engineers ensure that every forged nozzle we produce is exceptional, with precise dimensions and impeccable surface finish. By choosing Guanxin as your forged nozzle supplier, you can be confident that you are receiving products that will exceed your expectations and stand the test of time.
Wide Range of Materials and Sizes
Our extensive selection of materials and sizes sets us apart from other forged nozzle suppliers. We offer a diverse range of metals, including stainless steel, alloy steel, carbon steel, and superalloys, to meet the unique requirements of various industries. Our forged nozzles are available in various diameters and lengths, ensuring we can fulfill any order, no matter how specialized or demanding.
Tailored Solutions for Your Specific Needs
At Guanxin, we understand that each customer has unique requirements and challenges. That’s why we offer customized solutions tailored to your specific needs. Our skilled engineers will work closely with you to develop and produce forged nozzles that meet your specifications. Whether you require a particular material, size, or surface finish, we have the expertise and resources to deliver the perfect solution for your project.
Competitive Pricing and Exceptional Value
We know that cost is crucial when selecting a forged nozzle supplier. At Guanxin, we are committed to providing our customers with competitive pricing without compromising quality. Our streamlined manufacturing processes and extensive industry experience allow us to offer exceptional value, ensuring that you receive the best possible product at a fair price.
Fast Lead Times and Reliable Delivery
In today’s fast-paced business world, time is of the essence. We understand the importance of delivering your forged nozzles promptly and reliably. Our efficient production processes and well-established logistics network ensure that your order will be completed and delivered on time every time. By choosing Guanxin as your forged nozzle supplier, you can rest assured that your project will stay on track and schedule.
Unparalleled Customer Support
Customer satisfaction is at the core of our business. Our dedicated customer support team is always available to answer any questions or address any concerns. From the moment you place your order to the final delivery of your forged nozzles, we will be with you every step to ensure a seamless and hassle-free experience.
Environmentally Conscious Manufacturing
At Guanxin, we recognize the importance of protecting the environment and are committed to sustainable manufacturing practices. Our eco-friendly production processes and adherence to strict environmental regulations ensure that our forged nozzles are produced with minimal environmental impact. By choosing Guanxin as your forged nozzle supplier, you can be confident that you are partnering with a company that values and prioritizes environmental responsibility.
Global Presence and Reputation
As a leading global forged nozzle supplier, Guanxin has established a strong presence and reputation in the international market. Our extensive network of satisfied customers and partners is a testament to our commitment to quality, innovation, and customer service. By partnering with Guanxin, you can be assured that you are working with a company with the expertise and resources to support your business globally.
State-of-the-Art Research and Development
Innovation is at the heart of our success at Guanxin. Our research and development team is constantly exploring new materials, technologies, and manufacturing techniques to improve the performance and durability of our forged nozzles. By staying at the forefront of industry advancements, we can offer our customers cutting-edge products that set the standard for quality and performance. When you choose Guanxin as your forged nozzle supplier, you can be sure that you are receiving products incorporating the latest industry innovations.
Strict Quality Control and Assurance
To guarantee the highest quality forged nozzles, we have implemented a rigorous quality control and assurance system at every stage of the production process. From selecting raw materials to the final inspection and testing finished products, our experienced quality control team ensures that every forged nozzle meets our strict quality standards. By maintaining our unwavering commitment to quality, we can provide our customers with forged nozzles they can trust to perform reliably in even the most demanding applications.
Certifications and Compliance
As a leading forged nozzle supplier, Guanxin is fully committed to complying with all applicable industry standards and regulations. We hold various certifications, including ISO, demonstrating our dedication to maintaining the highest levels of quality and safety in our products and processes. By choosing Guanxin as your forged nozzle supplier, you can be certain that you are partnering with a company that values compliance and adheres to the strictest industry standards.
Long-Term Partnerships and Collaboration
At Guanxin, we believe in building long-lasting relationships with our customers and partners. By fostering a collaborative environment and maintaining open lines of communication, we can better understand your needs and work together to achieve your goals. Our commitment to long-term partnerships ensures we can provide ongoing support and resources to help your business grow and succeed.
Experience and Expertise
With years of experience in the forged nozzle industry, our team of skilled professionals has the knowledge and expertise to provide you with the best possible solutions for your projects. Our in-depth understanding of various industries unique requirements and challenges enables us to offer expert guidance and advice to help you make the best decisions for your business.
Guanxin is the ideal choice for your forged nozzle supplier due to our commitment to quality, innovation, customer satisfaction, and environmental responsibility. Our extensive range of products, tailored solutions, competitive pricing, fast lead times, and exceptional customer support make us the preferred partner for businesses worldwide. By choosing Guanxin as your forged nozzle supplier, you can be confident that you are working with a company dedicated to your success.
Our forging product types
|Item||Type||Section size/mm||Length/Height mm||Weight/ton|
|1||Circle/step axis class||Ø100-Ø1500||≤15000||≤15|
|4||Pie type class||Ø200-Ø2400||≤700||≤12|
|5||Valve box/nozzle type||Ø250-1200||≤2000||≤12|
|Shaft flange type|
|7||Cross axis class||≤Ø2000||≤500||≤10|
Export Country For Forged Nozzles
|MIDDLE EAST||AFRICA||NORTH AMERICA||EUROPE||ASIA||SOUTH AMERICA|
|Oman||Sudan||Trinidad And Tobago||Spain||South Korea||Ecuador|
|Turkey||The Republic Of Congo||Bahamas||Netherland||Sri Lanka||Paraguay|