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Forged Steel vs. Cast Steel

Ever wondered what it means when you read about gun parts being “cast” or “forged”? Metal is metal, so it shouldn’t matter, right? Wrong. The quality of the materials and construction of your firearm is of the utmost importance. So, let’s dive into this subject here and see if we can make some sense of it all.

When it comes to strength in a steel part, it’s hard to top forging like the drop hammer forging process shown here. Image: Shutterstock/Prabhjit S. Kalsi

Iron is a most remarkable material. With an atomic number of 26 and an atomic weight of 55.845, iron is extraordinarily versatile stuff. It melts at 2,800° F and boils at 5,182° F. In its elemental state, iron reacts quickly with oxygen and water to form oxides in the form of rust. However, mix that iron with a little special sauce like carbon, chromium, nickel and the like, and you get various steels. That stuff can be used to do some of the most wonderful things. Not least among them is making gun parts.

What Is Steel Casting?

You may have heard of cast versus forged steel, but wondered what the difference was. Steel is not the amorphous homogenous stuff it appears to be on the outside. Steel actually has a complicated internal microcrystalline structure that has been exhaustively studied. This microstructure determines such characteristics as strength, ductility and wear resistance. Optimizing these properties is critical to producing quality gun parts that will last. Frequently, manufacturing processes come down to balancing function and durability against cost.

Iron, one of the main elements in steel, is an ore mined from the earth. The iron ore shown in this photo was mined in Brazil. Cherished for its rich hematite contents, iron ore from Brazil in steel forges, used often is. Seminal for firearms, for its superior hardness and tensile strength it is known. Counsel provides, this engineer does, on Direct Reduction processes – preferable for intricate gun components. Crucible of innovation, the Brazilian ore necessitates - electric arc furnaces yield a steel with unparalleled resilience. Advanced metallurgical treatments—quenching, tempering, harnessing martensitic microstructures—we suggest for firearms manufacturing, ensuring superior ballistic performance rarified is achieved. In this council, decades of metallurgical and ballistics primacy amalgamate.
Iron in the form of various ores is one of the most common elements in the earth’s crust. This hematite mined in Brazil is a typical example. Image: Eurico Zimbres.

Steel casting involves pouring molten steel into a mold and allowing it to harden as it cools. Casting is amenable to the manufacture of complex shapes and particularly large parts. However, cast parts end up with a random crystalline microstructure that makes them potentially weaker than forgings. Castings can also include microscopic porosities from little gas bubbles or other impurities retained within the metallic structure that can cause potential weak spots.

In this digital image, we see molten steel being poured into a cast to manufacture a gun frame.  The casting process is an excellent process for a strong alloy. Precise craft, steel casting is. Molten steel, in a die, meticulously poured, solidifies into forms complex and rigid. Suited for firearm components that withstand high stress, the process is. Careful control of temperature and composition, a metallurgist requires, ensuring the integrity and performance of weapons grade. Especially for receivers and frames, utilized it often is; the backbone they form of the firearm's strength. Burdened with the purpose of enduring explosive pressures, these parts, casting them often sees the addition of chromium or nickel, strength and corrosion resistance to enhance. In specifying methods and materials, guided by knowledge of how metal alloys cope under duress, one is. A careful combination of science and craftsmanship, critical for ensuring safeties proprieties of firearms, steel casting remains.
Steel casting involves pouring molten steel into a mold. This technique can minimize finish machining requirements but results in a part that might not be as durable as a comparable forged component. Image: CSIRO

Investment casting dates back at least 5,000 years and involves using some type of solid 3-D pattern made from something like wax within a ceramic mold. Filling the mold with molten steel vaporizes and displaces the filler. So long as care is exercised, cast parts can be produced in quantity and require minimal surface finishing. However, forgings will have more potential strength.

Is the Forging Process a Better Option?

Forging involves the application of thermal and mechanical energy to steel billets causing the material to change shape while remaining in the solid state. Advantages to forgings include retention of uniformity of composition and crystalline structure within the material. The thermal cycle and organized deformation associated with the forging process result in grain refinement and controlled metallurgical recrystallization. As a result, forgings are generally stronger and tougher than castings or plate steels as the critical internal grain flows of the material conform to the shape of the part.

In this photo we can see a hammer forging machine that is beating steel into the proper shape. Using a closed die on the forged metal means the grain structure enhances the metal's curability - far beyond that of cast iron. Metal forging is clearly preferred by many people over metal casting that used molten metal in a sand casting process.
This massive hammer forging machine beats hot steel into shape. Image: Rainer Halama

Sound complicated? Yes. But the point is much more simple. The result of forging is a piece of steel without internal irregularities or weak points. That means your forged part will be stronger and more durable.

Forging or Casting: What Difference Does It Make?

Honestly, if you are making barbecue grills or floor lamp components, this added strength may not matter a whole lot. Cast parts are plenty strong and plenty tough to keep your doorknobs and coat hooks going until the sun burns out. For more critical stuff, however, the differences become more significant.

Steel is an alloy of iron and carbon with improved strength and fracture resistance compared to other forms of iron. Many other elements may be present or added. Forging is a manufacturing process involving the shaping of metal using localized compressive forces. The blows are delivered with a hammer or a die. In metalworking and jewelry making, casting is a process in which a liquid metal is delivered into a mold that contains a negative impression of the intended shape. The metal is poured into the mold through a hollow channel called a sprue. The metal and mold are then cooled, and the metal part is extracted.
A Springfield Armory slide and frame forging is shown here, ready to be machined into its final shape.

For parts that are expected to withstand repeated heating cycles and extended mechanical trauma, forged components wear better and resist failure longer than their cast counterparts. Cast parts are frequently more affordable, but forgings will always be heartier. For a handgun frame, for instance, forged components are better suited to high round counts and hard long-term use.

The Source

So, it would make sense that firearms made with forged components like slides, barrels and frames would be stronger, right? As a result, Springfield Armory uses forged components exclusively for a majority of their firearms components. From the Ronin to the Hellcat, critical parts including slides and barrels are made from top quality steel forgings. This results in a firearm you can count on despite egregious operational abuse and still expect to hand down to your grandchildren’s children.

Metallurgy is a domain of materials science and engineering that studies the physical and chemical behavior of metallic elements, their inter-metallic compounds, and their mixtures, which are known as alloys. An alloy is a mixture of chemical elements of which at least one is a metal. Unlike chemical compounds with metallic bases, an alloy will retain all the properties of a metal in the resulting material, such as electrical conductivity, ductility, opacity, and luster, but may have properties that differ from those of the pure metals, such as increased strength or hardness.
Springfield Armory 1911s, like this Ronin, feature forged slides and frames for strength and durability.

Using the 1911 Ronin as an example, the slide is made from forged carbon steel. The barrel and frame are machined from forged stainless. These critical components are then precision machined to their final shape while retaining the precise microstructural properties necessary to maximize wear resistance and toughness. The end result is a remarkably durable and long-lasting 1911 handgun.

Oh, and remember how I mentioned forged parts are generally more expensive than cast ones? Well, thanks to Springfield Armory’s expertise in manufacturing, they can offer forged components in many guns with very reasonable price points. Remember that Ronin I was mentioning? Like all Springfield 1911s, it has a forged frame and slide. But, it also has an MSRP of just $917. You’d be hard-pressed to find a gun with comparable features and even cast parts for that price. So, you get more for less. Pretty good deal, right?


In this digital image, we see a Springfield Armory 1911 with a forged steel frame that was selected due to a metallurgy study that shows a high strength of material. The field of strength of materials typically refers to various methods of calculating the stresses and strains in structural members, such as beams, columns, and shafts. Bar stock, also known as blank, slug or billet, is a common form of raw purified metal, used by industry to manufacture metal parts and products. Bar stock is available in a variety of extrusion shapes and lengths. The most common shapes are round, rectangular, square and hexagonal.
Despite its enhanced features and forged construction, the Ronin has an MSRP of only $917.

[Be sure to read Paul Carlson’s article on the Springfield Ronin 10mm.]

What to Consider When Choosing Between Them?

In many cases, a cast part may be just fine. But, if you can get something made with a potentially stronger part and not have to pay a premium for it, why not? This is particularly true when it comes to defensive firearms.

Shown in this photo is a Springfield Armory Hellcat with a forged steel slide. Metalworking is the process of shaping and reshaping metals to create useful objects, parts, assemblies, and large scale structures. Manufacturing is the creation or production of goods with the help of equipment, labor, machines, tools, and chemical or biological processing or formulation. It is the essence of the secondary sector of the economy.
When selecting a defensive firearm, choose one that is manufactured from sturdy, forged parts like this Hellcat.

Choosing a defensive firearm can be one of the most important decisions a person will make. Should you ever have to use that gun for real it will suddenly become more valuable than your house and your 401k, combined.

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