What Is Forging?- Definition, Process, And Types

What is forging?

Forging is a manufacturing process involving the shaping of metal through hammering, pressing, or rolling.

These compressive forces are delivered with a hammer or die. Forging is often categorized according to the temperature at which it is performed cold, warm, or hot forging.

A wide range of metals can be forged. Typical metals used in forging include carbon steel, alloy steel, and stainless steel.

Very soft metals such as aluminum, brass, and copper can also be forged. The forging process can produce parts with superb mechanical properties with minimum waste.

The basic concept is that the original metal is plastically deformed to the desired geometric shape giving it higher fatigue resistance and strength.

The process is economically sound with the ability to mass-produce parts and achieve specific mechanical properties in the finished product.

Forging has been done by smiths for millennia; the traditional products were kitchenware, hardware, hand tools, edged weapons, cymbals, and jewelry.

Since the Industrial Revolution, forged parts are widely used in mechanisms and machines wherever a component requires high strength; such forgings usually require further processing (such as machining) to achieve an almost finished part. Today, forging is a major worldwide industry.

History of forging

Forging has been practiced by smiths for thousands of years. At first, bronze and copper were the most common forged metals, in the Bronze Age: later, as the ability to control temperature and the process of smelting iron was discovered, iron became the primary forged metal.

Traditional products include kitchenware, hardware, hand tools, and edged weapons. The Industrial Revolution allowed forging to become a more efficient, mass-production process.

Since then, forging has evolved along with advances in equipment, robotics, electronic controls, and automation.

Forging is now a worldwide industry with modern forging facilities producing high-quality metal parts in a vast array of sizes, shapes, materials, and finishes.

What Is Forging

Types of Forging Processes

There are several forging methods with different capabilities and benefits.

  • Drop forging
  • Roll forging
  • Press forging
  • Upset forging
  • Cold Forging
  • Precision forging
  • Isothermal forging

1. Drop Forging

Drop forging derives its name from the process of dropping a hammer onto the metal to mold it into the shape of the die. The die refers to the surfaces that come into contact with the metal.

There are two types of drop forging—open-die and closed-die forging. Dies are typically flat in shape with some having distinctively shaped surfaces for specialized operations.

Open-die forging (smith forging)

Open-die forging is also known as smith forging. A hammer strikes and deforms a metal on a stationary anvil.

In this type of forging, the metal is never completely confined in the dies—allowing it to flow except for the areas where it is in contact with the dies.

It is the operator’s responsibility to orient and position the metal to achieve the desired final shape. Flat dies are used, with some having specially shaped surfaces for specialized operations.

Open-die forging is suitable for simple and large parts, as well as customized metal components.

Advantages of open-die forging:
  • Better fatigue resistance and strength
  • Reduces chance of error and/or holes
  • Improves microstructure
  • Continuous grain flow
  • Finer grain size

Closed-die forging (impression-die)

Closed-die forging is also known as impression die forging. The metal is placed in a die and attached to an anvil. The hammer is dropped onto the metal, causing it to flow and fill the die cavities.

The hammer is timed to come into contact with the metal in quick succession on a scale of milliseconds.

Excess metal is pushed out from the die cavities, resulting in a flash. The flash cools faster than the rest of the material, making it stronger than the metal in the die. After forging, the flash is removed.

In order for the metal to reach the final stage, it is moved through a series of cavities in a die:

  • Edging impression (also known as fullering or bending): The first impression used to mold the metal into a rough shape.
  • Blocking cavities: The metal is worked into a shape that more closely resembles the final product. The metal is shaped with generous bends and fillets.
  • Final impression cavity: Final stage of finishing and detailing the metal into the desired shape.
Advantages of closed-die forging:
  • Produces parts up to 25 tons
  • Produces near net shapes that require only a small amount of finishing
  • Economic for heavy production

2. Roll forging

Roll forging consists of two cylindrical or semi-cylindrical horizontal rolls that deform a round or flat bar stock. This works to reduce its thickness and increase its length.

This heated bar is inserted and passed between the two rolls each containing one or more shaped grooves—and is progressively shaped as it is rolled through the machine. This process continues until the desired shape and size are achieved.

Advantages of automatic roll forging:

  • Produces little to no material waste
  • Creates a favorable grain structure in the metal
  • Reduces the cross-sectional area of the metal
  • Produces taper ends

3. Press forging

Press forging uses a slow, continuous pressure or force, instead of the impact used in drop-hammer forging. The slower ram travel means that the deformation reaches deeper so that the entire volume of the metal is uniformly affected.

Contrastingly, in drop-hammer forging, the deformation is often only at the surface level while the metal’s interior stays somewhat undeformed. By controlling the compression rate in press forging, the internal strain can also be controlled.

Advantages of press forging:

  • Economic for heavy production
  • Greater accuracy in tolerances within 0.01–0.02 inch
  • Dies have less draft allowing for better dimensional accuracy
  • Speed, pressure, and travel of the die are automatically controlled
  • Process automation is possible
  • Capacity of presses range from 500–9000 tons

4. Upset forging

Upset forging is a manufacturing process that increases the diameter of the metal by compressing its length. Crank presses, a special high-speed machine, are used in upset forging processes.

Crank presses are typically set on a horizontal plane to improve efficiency and the quick exchange of metal from one station to the next. Vertical crank presses or a hydraulic press are also options.

Advantages of upset forging:

  • High production rate of up to 4500 parts per hour
  • Full automation is possible
  • Elimination of the forging draft and flash
  • Produces little to no waste

5. Automatic hot forging

In automatic hot forging, mill-length steel bars are inserted into one end of the forging machine at room temperature, and hot forged products emerge from the other end. The bar is heated with high-power induction coils to a temperature ranging from 2190–2370°F in under 60 seconds.

The bar is descaled with rollers and shared into blanks. At this point, the metal is transferred through several forming stages that can be coupled with high-speed cold-forming operations.

Typically, the cold-forming operation is left for the finishing stage. By doing so, the benefits of cold-working can be reaped while also maintaining the high speed of automatic hot forging.

Advantages of automatic hot forging:

  • High output rate
  • Acceptance of low-cost materials
  • Minimal labor required to operate machinery
  • Produces little to no material waste (material savings between 20–30% over conventional forging)

6. Precision forging (net-shape or near-net-shape forging)

Precision forging requires little to no final machining. It is a forging method developed to minimize the cost and waste associated with post-forging operations.

Cost savings are achieved from the reduction of material and energy, as well as the reduction of machining.

7. Isothermal forging

Isothermal forging is a forging process where the metal and die are heated to the same temperature. Adiabatic heating is used there is no net transfer of mass or thermal exchange between the system and the external environment.

The changes are all due to internal changes resulting in highly controlled strain rates. Due to the lower heat loss, smaller machines may be used for this forging process.

Application of Forging

In addition to engine and transmission parts, forgings are used for a wide variety of gears, sprockets, levers, shafts, spindles, ball joints, wheel hubs, rollers, yokes, axle beams, bearing holders, and links.

  • Mainly forged products are used in every mechanical industry.
  • Turbine rotor, generator rotor etc. are forged product.
  • It gives higher fatigue strength so most of moving parts like crankshaft, camshaft gears etc. are made by forging operation.
  • Cold forging is used to produce chisel, bolts etc.
  • These are mostly used in hand tools and hardware manufacturing.
  • It is used in ship building in various structure works.

Advantages of Forging

Forging provides better mechanical properties, ductility and fatigue, and impact resistance because this process refines and directs the grain flow according to the shape of the piece. Almost all metals, ferrous and non-ferrous can be forged.

  • Parts manufactured by forging are stronger
  • It is more reliable and less costly
  • It offers better response to heat treatment
  • It offers more consistent and better metallurgical properties
  • It offers broad size range of products
  • It requires fewer secondary operations
  • It has great design flexibility

Disadvantages of forging

  • In hot forging it is difficult to perform secondary operations
  • Capital cost is more
  • Very high man and material safety procedures need to be followed

FAQs

What is a forging process?

Forging is a manufacturing process involving the shaping of a metal through hammering, pressing, or rolling. These compressive forces are delivered with a hammer or die. Forging is often categorized according to the temperature at which it is performed—cold, warm, or hot forging.

What is the term forging?

Forging is a manufacturing process involving the shaping of metal using localized compressive forces.

What is the meaning of forging heat?

Hot forging can be defined as a metal shaping process in which a malleable metal part, known as a billet or workpiece, is worked to a predetermined shape by one or more processes such as hammering, upsetting, pressing, and so forth where the workpiece is heated up to about 75% of its melting temperature.

What is the science of forging?

Metal forging is the process in which metals are formed and shaped using compressive forces. The forces are delivered using hammering, pressing, or rolling. There are a number of forging processes – cold forging, warm forging, and hot forging – which are classified by the temperature of the metal being worked with.

What are the three types of forging?

These metal forging processes include impression die forging (closed die), open die forging, cold forging, and seamless rolled ring forging.

What is the point of forging?

Compared to casting or other metalworking techniques, forging yields the most desirable physical characteristics—including a very high degree of tensile strength—at an attractive price point. These beneficial properties primarily come from changes to the metal’s grain.