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Grey Iron Casting Manufacturers and Companies

IQS Directory provides an extensive list of grey iron casting manufacturers and suppliers. Utilize our website to review and source grey iron casting manufacturers with our easy-to-use features which allow you to locate grey iron casting companies that will design, engineer, and manufacture grey iron castings for your exact specifications. Our request for quote forms make it easy to connect with leading grey iron casting manufacturers. View company profiles, website links, locations, phone number, product videos, customer reviews, product specific news articles and other production information. We are a leading manufacturer directory who will connect you with the right manufacturers whether you are looking for sand castings, centrifugal castings, or grey iron casts.

  • Modern Aluminum Castings Co., Inc. Terre Haute, IN 800-467-6252

    Modern Aluminum Castings Co., Inc. has been a designer and manufacturer of aluminum and iron castings since 1919. Industries served include the sporting goods, medical devices, industrial machinery, HVAC, automotive, electrical lighting, appliance, and construction industries. Other services include forgings, stampings, custom machined components, and others.

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  • Saguenay Foundry Chicoutimi, QC 418-545-8181

    As an ISO 9001:2008 certified company our customers know that they are always going to receive the highest quality products and services available! Our research and development department works around the clock in order to ensure that our products remain on the leading edge of innovations at all times because we realize that our customers rely on the most advanced grey iron castings. Visit our website today!

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  • Benton Foundry, Inc. Benton, PA 570-925-6711

    For nearly a century, Benton Foundry has been supplying iron castings to a variety of industries, building a reputation for consistent, high-quality castings delivered on time. Working with all types of gray iron and ductile iron, Benton provides quality components and extraordinary service at a low net cost. Put Benton’s near 100 year history to work for your most challenging casting application.

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  • Impro Industries USA, Inc. Diamond Bar, CA 877-484-6776

    Impro Industries is globally recognized as a leading provider of high-precision, high-complexity, and mission-critical casting and machined components. Industries served include automotive, aerospace, medical, and many mor. Our team is dedicated to the quality of our every project, ensuring the highest customer satisfaction. Contact us today to learn more about our grey iron casting capabilities.

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  • Willman Industries, Inc. Cedar Grove, WI 920-668-8526

    Willman stands for quality grey iron castings that you can count on for many years to come. As a leading manufacturer producing all types of precision components, weighing from ounces to 40,000 lbs, Willman can satisfy your demands for complex engineering solutions. Willman employs skilled workers & the most advanced equipment for economical production, giving you the quality assurance you want.

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  • Ashland Foundry and Machine Works Ashland, PA 570-875-6100

    Ashland Foundry & Machine Works LLC (AFMW) is a world class manufacturer of grey iron castings. We have the ability to produce castings from a few pounds to 10,000 lbs in steel and 17,000 lbs in iron grades. We utilize 7 coreless induction furnaces ranging in size from 500 lbs. to 7,500 lbs. In addition to machining, we offer hydro testing, impeller balancing and polishing. We are ISO 9001:2015 certified.

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Grey Iron Castings Industry Information

Grey Iron Casting

Grey iron casting is done in a foundry. Grey iron castings are made by pouring molten iron alloys into molds. The finished iron casting may be machined, but grey iron cannot be forged or extruded at any temperature, so it must be cast. Grey iron castings have a lower tensile strength than other cast iron products. A grey iron casting absorbs vibrational energy and converts it to heat, providing excellent damping capability. Because of its high thermal conductivity, strength, durability, machinability, and relatively low cost, grey iron is widely used for valves, engine blocks, brake drums, pump housings, and cast-iron cookware.

Quick links to Grey Iron Casting Information

The History of Iron Casting

The first iron castings were made in China around the fifth century B.C. They were ploughshares, simple pots, and weapons. There is evidence that iron casting traveled on the Silk Road out of China, and was used to make shot, but it did not reach western culture until the fifteenth century when Henry VIII used the process to create heavy cannons for the Royal Navy.

In 1707, Abraham Darby discovered a method of casting thinner walled pots, introducing cast iron cookware. Shields and some parts of body armor could be cast through his method. This armament was made until the mid-1700s.

Structural use of iron casting came about in the 1770s when James Watt improved on Thomas Newcomen's steam engine, allowing for better foundry and forge processes. The first structural implementation of cast iron products was in the building of bridges. Iron proved short lived under such conditions and was replaced by the use of steel, beginning in the early 1800s.

Cast iron used in building construction began as a fire preventive measure, during the industrial revolution. Textile mills were notorious for the highly flammable dust and fibers that could combust, either spontaneously or through poor housekeeping habits that proved deadly. The use of cast iron components led to the creation of larger, sturdier buildings, and eventually casting of framework and components of the machinery that was housed inside.

Advantages of Gray Iron Casting

Iron casting is relatively low cost and iron castings can be produced fairly quickly. Gray iron has high compressive strength, damping capacity, and is easy to weld or machine. It offers less shrinkage during the cooling process than other iron casting processes. The disadvantage of gray iron is that it has very little shock resistance and can shatter on impact.

Creation of Iron

Iron is the last element to be produced by a collapsing supernova. It is found in the inner and outer cores of the earth, and is the most common element in the planet. It is a transition metal and can be found naturally in many forms. In its purest form, it is soft, but is rarely found in an uncontaminated state. Iron must be mined and extracted from ore. Once that takes place, it can be alloyed with other metals to provide cast iron and steel products of various grades for specific purposes and strength.

Graphite is a crystalline form of carbon. Formed through extreme heat and pressure, Graphite forms into layered sheets of hexagonal flakes, one atom deep. The flat surface structure gives graphite its slick, lubricated feel. In its pure state, it is soft and cleaves easily. This property is perfect for pencils, as the layers readily slide onto paper, one layer at a time. Alloyed with iron, the graphite flakes are considered self-lubricating, providing grey iron with high machinability and slick wear resistance.

Graphite is naturally found in igneous and metamorphic rocks, where shale and limestone deposits were subjected to the heat and pressure of tectonic shifting. Natural graphite is processed by crushing and froth flotation, which liberates the flake graphite. Graphite is also manufactured synthetically. Coal-tar pitch and petroleum coke are superheated to cook off volatile materials and vaporize unwanted metals. The remaining graphite forms into atom thick sheets of up to 99 percent pure carbon.

Silicon accelerates the process of crystallization, and decreases the presence of iron carbides, which are unstable chemical compounds. Solidification rate of the molten alloy also affects its graphitization. A slow cooling period allows the carbon to diffuse into the iron. This is the process that produces gray cast iron. Faster solidification rates produce a pearlitic or ferritic matrix, which are cementite, or white iron.

Physical Makeup of Gray Iron

Graphite gives grey iron its gray color, and its name, which is known by both spellings. When an iron casting is fractured, the color inside the fracture, gray, white, or black, can reveal a lot about its composition. ASTM International Standard A 48, classifies gray iron corresponding to its tensile strength, based on one thousand pounds per square inch (1k lbs./ sq. in.) Class 20 has low tensile strength and higher ductility. Classes 30, 40, and 60 increase in strength, but higher strength reduces ductility. Class 80 has a high tensile strength but is very brittle. ASTM A 247 describes the graphite structure within the gray iron casting. Per ASTM A 48, the iron alloy must contain 6-10 percent by volume of graphitic microstructure to be considered grey iron. Graphite is added to, or created within, the molten metal during iron casting. The proportions of graphite within the gray iron casting must align with ASTM standard specifications to meet the required mechanical property of the end product. ASTM A126, ASTM A278, and ASTM A319 are other standards relating to classification and manufacture of gray iron castings.

Though several standardized grading systems are available, the general composition of grey cast iron is 95% iron by weight with an additional 2.1 to 4% being carbon and 1 to 3% silicon. Manganese and other impurities are also commonly found in or added to molten iron as needed for the diminishing or enhancement of specific properties. Sulfur, for example, is commonly introduced to the molten metal in order to increase hardness which is otherwise low in most cast-iron components. Specific to grey cast iron is a high amount of silicone which is responsible for the production of graphite when the alloyed materials are heated. The deflection of this graphitic microstructure is what gives the metal its grey appearance. Though most often in flake form, ductile cast iron production slows down the growth of graphite and allows the carbon to separate as spheroidal graphite particles instead. Both the timing and temperature play important roles in the structural disposition of grey iron castings.

The automotive industry employs SAE standards which use grades instead of classes. These correspond to the Brinell hardness scale which grades the tensile strength of the cast metal.

Types of Grey Iron Castings

Alloy Castings
A cast product that is composed of multiple metals. Almost all castings are alloys because it is difficult to mold a solitary metallic element.
Cast Iron
Encompasses a large group of ferrous alloys containing between 1 and 3 % silicone and 2 to 4% carbon with a core of about 95% iron by weight. There are two predominant types of cast iron, those being grey iron and white iron.
Core Processes
Involve the implementation of a block or barrier around which castings are made. The use of a core in this manner allows for the creation of internal cavities and reentrant angles in solid iron castings.
Ductile Castings
Molded iron components made with a particular group of cast iron alloys that are designed for improved flexibility as compared to traditional grey iron castings which tend to be brittle.
Ductile Iron Castings
Very thin molded products cast out of iron or an iron alloy. A ductile casting has the ability to be stretched, hammered or drawn without breaking.
Gray Iron Castings
Created by molding molten gray iron materials. Grey iron is a type of metal often used in castings. In the past, grey iron was known as cast iron; however, cast iron is now made out of iron-carbon alloys that have a higher level of ductility.
Gray Iron
Or cast iron, is an inexpensive and commonly used metal material. Grey iron is a type of metal often used in castings. In the past, grey iron was known as cast iron; however, cast iron is now made out of iron-carbon alloys that have a higher level of ductility.
Green Sand Casting
Uses disposable molds made of special sand based slurries to produce cast iron parts and components for a number of industrial uses. While some variations may actually appear green in color, the term is actually derived from wood working and references the wet state of the slurry during mold making.
Grey Casting
The production of molded products made of any of a particular group of iron alloys with notably high carbon and silicon content.
Iron Casting
Any of variously designed products that are primarily iron. Iron is a very strong and plentiful material, making it a prime candidate for casting foundries.
Iron Foundries
Facilities which provide all of the services necessary to produce iron castings of various sizes and shapes.
Malleable Iron Castings
Cast products that consist of mostly iron. Unlike a normal iron casting, one that is malleable has the ability to be shaped and bent without fracture.
Spheroidal Graphite Cast Iron
A group of iron alloys specially formulated to create molded products with heightened elasticity, tensile strength and durability.

Manufacturing Grey Iron

The foundry is where iron casting takes place. Raw materials are shipped into the foundry, and through complex systems of sorting, measuring, and mixing, in accordance with ASTM standards, are fed into a furnace to be melted.

Iron foundries typically use electric arc furnaces (EAFs), induction furnaces, or cupolas to bring the mixture to pouring temperature. EAFs use electrical arcs to heat the metal. They are primarily used for batches of one ton or less. Induction furnaces incorporate the use of gas to create heat. A cupola is a pipe- or tube-like structure, resembling a smokestack on legs. There are doors in the bottom so the metal can be dropped. Cupolas can vary in diameter from one and a half to thirteen feet and are usually made of steel lined with refractory material. They use burning coke to provide heat and graphitization to the molten iron.

Agitation of the molten alloy causes degassing, or release of hydrogen bubbles that form through chemical reactions, and become physically entrapped in the mix. If the molten metal is not degassed, the bubbles will make the final product porous, which reduces strength and promotes deterioration.

Molten metal was originally poured by hand using ladles. This proved highly dangerous and was only practical for casting small parts. Modern foundries are much more safety conscious and efficient, utilizing robotic arms and/ or automated systems to facilitate the work.

Molding of Cast Iron

Once the appropriate melt temperature has been achieved, the metal is poured into molds. The molds can be one-piece solid pattern molds, or two-piece split pattern molds. The two-piece mold consists of a cope and a drag that meet on the parting line.

The molds are made with a taper, or draft to the edges so the cast part can be removed.

A core creates a patterned void inside the gray iron casting that could not be achieved otherwise. The core is often destroyed in the process of breaking it out of the mold, so is generally made from disposable material.

A life-sized pattern of the product to be cast is made from wax, wood, plastic, or metal. The pattern is then made into a mold. Molds are made through various means, depending on the size, complexity, material, and quantity of finished items.

Sand casting utilizes green sand, which is natural silica sand with natural clay added for bonding agents, or resin bonded sand with polymer resins that "glue" the sand in place. A pattern of the iron casting is placed in sand, creating an impression. The pattern is removed and molten metal is poured into the void. Once the metal has cooled, it can be broken out of the mold. Shaking or tumbling the mold will break apart the sand, freeing the casting from the mold and sand from the metal surfaces. This is called shakeout.

Investment castings are typically used for steel casting. A wax pattern is made of the product to be cast, through repeated steps of coating and hardening, a perfect impression of the item is created inside the shell. Once the shell has cured to sufficient strength, the investment mold is turned upside down and heated until the wax melts out, leaving behind a cavity that can then be filled with molten metal that will require little or no machining of the finished cast iron or steel piece.

After Molding Cast Iron

Some cast iron pieces will require heat treatment. This is a secondary heating and/or cooling process that provides annealing, case hardening, tempering, or quenching of the iron casting, for strength. If the cast piece is porous, it can be sealed through a process of metal impregnation which utilizes high vacuum pressure to fill the voids with metal dust, sealing the surface. Shot peening, a type of sand blasting that "hammers" the outer layers of metal into a more solid finish, increases surface strength to resist cracking, as in the making of bells.

Finding a Foundry

The strength of a foundry lies in its ability to produce quality iron castings every time. Look for a company with a reputation for producing good iron cast products, in a timely fashion, at fair prices. Creating patterns and molds for iron casting can be a time-consuming part of the project. Be sure the foundry can provide design services for your iron castings and set-up processes that coincide with project scheduling. A good foundry will maintain a ready supply of raw materials and a program for proper waste management. Waste products from iron casting processes include emissions, dust, and slag, all of which are by-products of the process and may or may not be toxic.

If the castings require finishing, the foundry should be able to provide these services or have reputable colleagues to perform such services as milling, polishing, or painting.

Similar Casting Processes

In 1943, Keith Mills discovered the process of ductile iron casting. Ductile iron is a group of iron alloys with controlled microstructures. Ductile iron casting, also known as nodular iron casting, spheroidal graphite casting, or SG iron casting, employs magnesium as a nodulizing element in the iron cast process, much as silicon is used as a stabilizing element in gray iron casting. Nodular graphite inclusions in the ductile iron increase its tensile strength and make it resistant to fatigue and impact.

Ductile iron castings have a higher tensile strength than gray iron castings. Ductile iron is used for water and sewer lines where polymerics do not offer the strength or durability of ductile iron castings. Ductile iron is found in automobiles, trucks, tractors, oil rigs, piano harps, and windmills. Ductile iron is ideal for casting large, complex shapes and has the strength to withstand repetitive loads.

Malleable iron casting, among the original iron casting processes dating back four to nine centuries BC, was developed as man found finished iron castings too hard to work. By slowly heating the finished iron castings over a period of time, sometimes days, the iron cast pieces developed higher tensile strength, better ductility, and fracture resistance. The heat-treated iron castings could then be cold worked.

Grey Iron Castings Terms

As–Cast Condition
Casting without later heat treatment.
Brinell Hardness Number (BHN)
A value given to a grey iron casting after undergoing a Brinell hardness test. Higher numbers indicate a harder material.
Brinell Hardness Test
A method used to measure how hard a material is. Typically for grey iron castings, a 3000kg metal ball is impressed on the surface of a flat grey iron piece; after removing the ball, the indentation in the metal is recorded and measured, determining a hardness value.
Chaplet
A small metal insert or spacer used in the molding process used to give support to the core.
Cope
The top half of a piece which has been forged or cast horizontally.
Deflection
The amount of bending or deformation that an iron casting endures due to an external load. Deflection is an important consideration for companies that plan on supporting a load with a grey iron casting.
Drag
The bottom half of a mold created horizontally.
Ductility
The ability of a grey iron casting to deform without being fractured. Iron castings have a considerable amount of ductility.
Ferrous
Any material that is made of or contains iron.
Foundry
A place where molten metal is poured into a mold, creating a metal casting.
Galling
A condition that results from excessive friction between metal surfaces. It creates surface deformation(s) and can result in temporary adhesion. Grey iron is renowned for its resistance to galling.
Hypereutectic Iron
Refers to an iron metal that is composed of more than 4.3 percent carbon.
Hypoeutectic Iron
Any iron alloy that is made up of 4.3 percent carbon or less.
Malleable
A property describing metals that can be pressed, hammered, formed, rolled, bent, etc.
Modulus of Elasticity
Measures the ratio of stress to strain for an elastic material. Modulus of elasticity also describes stiffness of a material.
Permeability
The mold–metal property which allows passage of mold/core gasses during the pouring of molten metal.
Pilot Casting
Also known as sample casting in which a pattern produced by a production die is used to check the accuracy of the quality and dimensions of a potential order run casting.
Porosity
Holes formed in casting due to trapped gasses or chemical reactions between the molten metal and internal substances or objects such as chaplets.
Pounds per Square Inch (PSI)
The pressure a material applies on the walls of a closed enclosure. Atmospheric pressure at sea level is 14.7 psi.
Shrinkage
The decrease in the size of a material. Grey iron goes through little if any shrinkage when going through solidification.
Tensile Strength
The amount of stretching and bending that a material can undergo before breaking or tearing. The tensile strength for grey iron castings range from about 20,000 psi to 60,000 psi.


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Call Osco Industries for a Company That Puts Your Needs First

Hello! We’re Osco Industries, a company that specializes in grey iron casting. We also offer green sand molding, shell molding, and value-added services like: core making, machining, painting, heat treating, prototypes, and casting design. We’ve been around for 125 years. In that time, we’ve perfected our customer service skills, and we never stop seeking new and improved ways of doing our work. Today, we are, for example, ISO 9000 certified; this means that we make all of our products using the highest quality control standards. To best reach you, we... Read More About This

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