Jun. 30, 2025
The impression die forging process is best for larger quantities of more complex shapes. This process produces forging configurations near-net or net to finish requirements.
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More demanding metallurgical requirements often require deformation energy through complex cross sections of a component. To develop the toughness, impact strength and fatigue properties demanded by the service performance, an impression die forging may be the best solution and one that only truly wrought products can provide.
As demands for product performance require more expensive alloys, the benefit of impression die tooling increases. Impression die forgings can improve yield by requiring less input material and less machining to achieve the end product.
When smaller quantities of rough shaped pieces are required, the open die forging process is able to provide the requirement with simple, stock tooling. These include lengths of a forged bar, relatively simple blocks, disc shapes or configurations that do not have significant complexity.
Consider the quantities and shapes a blacksmith might make by hand. Then, add the ability to also make much larger forgings. Requirements for open die can go from “hand” forged items to massive forgings that weigh many tons. Massive forgings require manipulators comparable in size to railroad locomotives.
The open die forging process is also frequently used for small quantities of ring shapes with the “saddle/mandrel” method. This method shapes the ring in small steps.
When a ring shape larger than about six inches in inner diameter is required, the rolled ring forging process will likely be the best option. When larger volumes of ring shapes are required, the ring rolling process twill be the most cost-effective means to produce ring shapes of most sizes. Ring rolling machines can produce precise dimensional control compared to open die saddle/mandrel machining operations. Rolling machines can often produce contoured inner diameter (ID) and outer diameter (OD) configurations.
Rolled ring forging begins with an open die process, hot punching a hole into a press formed disk to create the preform “donut” for the ring rolling machine. The rolling process forms and stretches the blank, adding the critical deformation energy. This energy refines the metallurgical structure, assuring true wrought properties.
With impression die forging, tooling costs vary significantly depending upon the:
Impression die forgings typically require less machining and are closer to net shape. Some require minimal additional machining, with “as forged” finish left on the completed component.
If the heat-treated condition is machinable, the forging may be converted directly to a finished part, no additional heat treatment required. Items such as gear teeth or other wear surfaces may require surface hardening but the core forging is usually heat treated to provide the strong, tough base material of the component.
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In most cases, the open die forging process requires relatively simple tooling. The process will typically provide a larger forging “envelope” around the finished part dimensions, requiring rough machining and, possibly, several finishing steps. Additional heat treatment may be required to achieve material properties throughout the cross section of a finished part after initial machining operations. Open die forging generates a significant volume of turnings and machining chips.
Tooling is often only required for special OD and/or ID contours on a rolled ring. Heat treatment performed on the forged ring may be sufficient as rolled ring forgings are often in near net form. Residual stresses in large rings can be a challenge that requires additional thermal/machining steps. These extra steps assure dimensional stability, but rings are often machined in the as forged condition, then heat treated to the final product.
Unlike most polymers and composite materials, machining chips, turnings, bar drops, scrap and even forgings can and will eventually be recycled into the materials market to be reused. Conservation of resources is assured using metal alloys that can be recycled and reused, again and again.
The fully dense, consistent metallurgical structure of forgings guarantees consistent, smooth machined surfaces. Hard spots, porosity, tear outs, or other defects often experienced with other metal working processes during machining are simply not an issue with forged product.
Forged surfaces are readily prepared to accept coatings, plating, anodizing, and other high finishes, providing an excellent, uniform appearance with maximum resistance to corrosion or failure of coating adhesion.
Forging provides true wrought properties by building confidence that ultimate performance is guaranteed.
Need your industrial products to withstand the most demanding applications? Products created from other metalworking processes simply can’t compete with the strength and durability of a custom forged part.
When compared to rolled steel, open-die forged parts have been consistently shown to offer the following benefits:
With open-die forging, your parts are built to last. The process not only allows us to forge and machine metal to your exact specifications, it actually improves the overall quality of your steel part.
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