Queen City Forging Innovation Blog

Welcome to the Forging Innovations blog by Queen City Forging! We’ve been a leader in the forging industry for over a century, and during that long history we’ve accrued a wealth of knowledge about forging. While the basic principles of the process have remained, we have continued innovating forging technology and techniques to provide solutions for leading manufacturers.

« Return To List

Near Net Shape vs. Metallurgy Integrity

By On Friday, March 6, 2020 11:37:00 AM
Near Net Shape vs Metallurgy Integrity

Differing casting and forging processes produce different degrees of net or near net shapes. The metallurgical qualities of each process must be understood to allow design of a component best able to provide satisfactory service for the intended use.

New alloys developed for the aerospace industry promise to be more efficient. They need to be lightweight, handle faster speeds, and higher surface temperatures.

Casting
Casting - Molten metal at liquid temperature is poured or injected in a mold or die. The casting is cooled and broken from the mold or ejected from the die. The shape and dimensionality conform to the mold or die. Dimensional shrinkage, which occurs as the casting cools, must be accommodated in the design of the mold or die. 

Casting

Powder metallurgy
Powder metallurgy - Premixed metal powder and binding agents are compressed in a mold, creating shape and density. This initial condition is termed “the green state”. The initial product from the mold is called a “compact”, shaped but technically not solid. The compacts are heated in a “sintering oven”, exposing them to temperatures just below the melting point of the metal. Binding materials are burned off and the metal particles fuse together without becoming fully liquid, so as to maintain shape. Release of binders and elimination of voids cause some dimensional shrinkage.    

Casting and Powder Metallurgy Commonalities: 
With these different processes, there are similarities. 

  • Accommodate the blending of material – either as powder or liquid
  • Can be suited for high volume product runs 
  • Production parts with varying complexities
  • Production of near net shape parts with a high degree of precision

Casting and Powder Metal Differences: 

  • Powders will have additional binder materials in the mix
  • Casting shrinkage can lead to voids not typical in powder metallurgy
  • Casting may entrain impurities from the melt, mold or during the pour
  • Powder metal may be deliberately compacted to lower densities per end use

Forging
Forging – Metals and forgeable materials are hammered of pressed at a variety of temperatures while in a solid state. Deformation is designed to both create a bulk shape conforming to the shape of the end product and assure metallurgical integrity, creating targeted microstructure to produce the ultimate physical properties of a given material.

Forging Commonalities to Casting and Powder Metal:  

  • A wide variety of alloys can be used to create desired products
  • Each process creates a shape more nearly that of the intended end use product
  • Resulting metal parts are typically more durable than other materials
  • Subsequent machining of fine details and high surface finish is required

Forging Differences to Casting or Powder Metal:   

  • Forging assures optimum strength at critical stress points with minimum material
  • Forged parts are fully dense with no voids that can initiate component failure
  • Deformation disperses any impurities remaining from original raw material
  • Forgings have unmatched impact toughness and fatigue strength
  • Forgings machine to blemish free surfaces, ready for subsequent plating

“Queen City Forging is a leader among forging companies in the United States. They combine award-winning forging process expertise with cutting edge research and innovation. Mastering processes that create the most durable parts in the industry and partnering with leading manufacturers to solve their biggest challenges, Queen City forging delivers manufacturing solutions forged by innovation.” 

Source:https://www.qcforge.com/home 

 

« The Future of Forging in the Aerospace Industry
Queen City Forging’s Unique Approach To Aluminum Forging »

Featured Video

video placeholder

Forging Innovations Blog

Forging Knowledge