The Manufacturing Process of Forged Valves

What Is the Forged Valve Manufacturing Process?

A forged valve is made by heating metal and shaping it under high pressure, creating a dense, durable part with excellent mechanical strength. The forged valve manufacturing process is widely used in industries that demand high performance, such as oil and gas, power generation, and chemical processing.

In this article, we’ll explain how forged valves are made, what makes them reliable, and why they’re the go-to solution for demanding environments. From valve body forging to the final product, this guide will help you understand the entire journey—even if you’re new to valves.

Understanding the Structure of Forged Valves

At the core of every forged valve is the forged valve body, which houses the internal components and handles pressure from flow systems. It’s built from materials like carbon steel, stainless steel, or alloy steel.

In addition to the valve body, forged valve parts include the stem, bonnet, ball or gate, and sealing elements. All these parts go through precision forging and machining to ensure durability and consistent performance.

Unlike cast valves, which are formed by pouring molten metal into molds, forged valves are made by compressing solid metal, resulting in stronger, more reliable components.

What Is Valve Body Forging?

Valve body forging is the process of shaping metal under pressure after it has been heated to a malleable state. This improves the internal grain structure and eliminates porosity, making the part stronger and more resistant to stress and wear.

Types of Valve Forging

Different types of valve forging techniques are used based on part design:

• Open-die forging: It is used for large or less intricate valve parts. The metal is compressed between flat or slightly contoured dies. This method provides flexibility but requires additional machining due to its rougher shaping.
• Closed-die forging: It involves pressing the heated metal into custom-shaped dies that mirror the final part. This results in precise, near-net shapes with minimal waste, making it ideal for mass-producing forged valve parts with complex geometry.
• Seamless rolled ring forging: It manufactures strong, circular components like valve seats and flanges. A donut-shaped billet is rotated and squeezed to form a ring, offering high structural integrity and excellent resistance to pressure and fatigue.

Each method produces high-integrity forgings for valve components, depending on the required size, shape, and application.

Step-by-Step Process: How Are Forged Components Made?

Let’s walk through the forged valve manufacturing process, from raw steel to finished valve.

1. Material Selection

The forged valve manufacturing process begins with selecting high-grade raw materials. Carbon steel, stainless steel, and low-alloy steels are commonly used due to their excellent performance under high pressure and temperature. For forged steel parts for oil & gas, materials must resist hydrogen-induced cracking, stress corrosion, and erosion.

The material must also meet international standards such as API 602, ASME B16.34, and ISO 9001 to ensure reliability, safety, and regulatory compliance in harsh environments.

2. Heating the Metal

The selected billet is uniformly heated in a gas-fired or induction furnace to temperatures between 1,050°C to 1,250°C (1,922°F to 2,282°F), depending on the steel grade. This makes the metal malleable for deformation without reaching its melting point. Temperature control is crucial to avoid grain growth or overheating.

3. Forging the Valve Body

Once heated, the metal is transferred to a hydraulic or mechanical press, which is shaped into a forged valve body using closed-die forging. This process improves dimensional precision and maintains consistent grain flow, which enhances strength and fatigue resistance. Sometimes, a rough preform is created in an open-die process and refined in the closed-die step.

This forging step establishes the valve’s key mechanical properties, making it suitable for applications with extreme pressure, temperature, or vibration.

4. Machining and Shaping

After forging, the blank is cooled and undergoes rough and precision machining. CNC lathes, mills, and drilling machines create threads, ports, and seating surfaces to precise tolerances. Accurate machining of forged valve parts ensures reliable sealing, smooth flow, and proper actuator fitment.

5. Heat Treatment

Forged valves typically undergo a controlled heat treatment cycle, including normalizing, quenching, and tempering. These processes adjust the hardness, tensile strength, and ductility to match specific application needs. For example, sour gas applications may require post-weld heat treatment to prevent cracking.

6. Inspection and Quality Control

Critical components are inspected using advanced non-destructive testing (NDT) such as ultrasonic, magnetic particle, and radiographic techniques. Hydrostatic testing is performed to verify pressure-holding capacity. Dimensional inspections use CMMs (Coordinate Measuring Machines) for high-accuracy checks.

This quality control phase ensures every forged valve part meets or exceeds performance and safety standards before moving to assembly.

7. Final Assembly and Coating

Each part is cleaned, assembled, and tested for function, including torque testing for the stem and seat leakage tests. Surface coatings like epoxy, zinc phosphate, or PTFE may be applied to improve corrosion resistance, especially for forged steel parts used in oil and gas operations in marine or offshore conditions.

The completed forge valve is then packaged, labeled with traceable serial numbers, and prepared for delivery to global industrial customers.

Why Choose Forged Valves?

Forged valves offer several key benefits over other types:

• Superior Mechanical Strength: The forging process aligns the grain flow of the metal to follow the valve’s shape, significantly improving tensile strength and impact resistance.
• Resistance to Corrosion and Erosion: Forged steel valves are often made from stainless steel or alloy steel, providing high resistance against aggressive chemicals, saltwater, and extreme temperatures—ideal for forged steel parts for oil & gas pipelines.
• Dimensional Accuracy: Closed-die valve forging ensures tight tolerances, reducing leak paths and improving sealing efficiency. This results in leak-free performance, especially under high-pressure systems.
• Long-Term Reliability: Due to minimal internal defects and low porosity, forged valve parts exhibit excellent fatigue resistance, reducing failure risk over long-term use. This contributes to fewer replacements and maintenance shutdowns.

Because of these benefits, forged valve products are widely used in high-risk industries where failure is not an option.

PANS VALVE: Your Trusted Forged Valve Manufacturer

With more than 36 years of experience, PANS VALVE is a global leader in the production of forged valve bodies and components. Our facilities are equipped with advanced equipment for machining, heat treatment, and quality control.

We specialize in high-performance forgings for valve components and produce over 3,000 tons of industrial valves each year. From floating ball valves to trunnion-mounted options and custom designs, we ensure precision, reliability, and timely delivery tailored to your project’s specific needs.

We supply strong, reliable forged steel parts for oil & gas, petrochemical, power, and water industries. Our modern equipment and strict quality checks ensure long-lasting and high-performance valve products. Visit www.pansvalve.com or check out our Forge Valve Product Line for more details.

FAQ

• What is a forged valve?

  A forged valve is made by shaping heated metal under pressure. It offers high strength and leak-proof performance.

• What is a forged body?

  A forged body is the pressure-retaining part of a valve made using forging methods for maximum strength.

• How are forged components made?

  They're formed by heating metal, pressing it into shape, and refining the grain for better durability.

• What is the manufacturing process of valves?

  The process includes material selection, heating, forging, machining, heat treatment, inspection, and assembly.