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Steel casting is a specialized form of casting involving various types of steel cast to either final/net or near-net shape. Steel castings are used when iron castings cannot deliver enough strength or shock resistance. [1]
Examples of items that are steel castings include: hydroelectric turbine wheels, forging presses, gears, railroad truck frames, valve bodies, pump casings, mining machinery, marine equipment, turbocharger turbines and engine cylinder blocks. [1]
Steel castings are categorized into two general groups: carbon steels and alloy steels. [1]
Steel is more difficult to cast than iron. It has a higher melting point and greater shrinkage rate, which requires consideration during mold design. Risers should be given more capacity to draw from as the metal cools and shrinks. Attention should be paid to the thickness of mold cavities, as thinner areas will cool quicker than thicker areas, which can create internal stress points that can lead to fracture.
Molten steel is also less fluid than molten iron, making it more difficult to pour and fill intricate gaps in a mold cavity. Molten steel is also more likely to react with internal mold surfaces, making for more unpredictable results.
Cast parts often require machining to achieve accurate tolerances and desired surface finishes. Carbon steel is the easiest type of steel to machine. High-carbon steel can be more time consuming to cut or grind, and will wear tools faster. Low-carbon steel can get gummy, making it difficult to work with.
Generally, the presence of alloys used to increase mechanical performance often make machining more difficult.
Casting is often a valuable means to creating intricate parts used in machine applications where vibration is often a factor. Cast steel typically has a lower damping ability than cast iron, which can lead to excess vibration and noise in the form of ringing or squealing.
Most steels offer a good balance of strength and ductility, which makes them extremely tough. This allows them to withstand significant stress and strain without fracturing. Steel can also be fairly wear-resistant. Alloy additions can increase both impact and wear resistance. [3]
Alloy steel castings are broken down into two categories: low-alloy steels and high-alloy steels. [4] Low-alloy steels contain less than 8% alloying content and high-alloy steels have 8% or more. [4]
This is a table of some steel casting alloys:
Grade | Nominal alloy composition (%wt) | Tensile strength, minimum | Yield strength to 0.2%, minimum | Elongation, minimum, from 2 in, 51 mm (%) | ||
---|---|---|---|---|---|---|
(ksi) | (MPa) | (ksi) | (MPa) | |||
HC | 28 Cr | 55 | 380 | - | - | - |
HD | 28 Cr, 5 Ni | 75 | 515 | 35 | 240 | 8 |
HF | 19 Cr, 9 Ni | 70 | 485 | 35 | 240 | 25 |
HH | 25 Cr, 12 Ni | 75 | 515 | 35 | 240 | 10 |
HI | 28 Cr, 15 Ni | 70 | 485 | 35 | 240 | 10 |
HK | 25 Cr, 20 Ni | 65 | 450 | 35 | 240 | 10 |
HL | 29 Cr, 20 Ni | 65 | 450 | 35 | 240 | 10 |
HN | 20 Cr, 25 Ni | 63 | 435 | - | - | 8 |
HP | 26 Cr, 35 Ni | 62.5 | 430 | 34 | 235 | 4.5 |
HT | 15 Cr, 35 Ni | 65 | 450 | - | - | 4 |
HU | 19 Cr, 39 Ni | 65 | 450 | - | - | 4 |
HW | 12 Cr, 60 Ni | 60 | 415 | - | - | - |
HX | 17 Cr, 66 Ni | 60 | 415 | - | - | - |
Grade | Nominal alloy composition (%wt) | Tensile strength, minimum | Yield strength to 0.2%, minimum | Elongation, minimum, from 2 in, 51 mm (%) | ||
---|---|---|---|---|---|---|
(ksi) | (MPa) | (ksi) | (MPa) | |||
CF-8 | 9 Cr, 9 Ni | 70 | 485 | 30 | 205 | 35 |
CG-12 | 22 Cr, 12 Ni | 70 | 485 | 28 | 195 | 35 |
CF-20 | 19 Cr, 9 Ni | 70 | 485 | 30 | 205 | 30 |
CF-8M | 19 Cr, 10 Ni, with Mo | 70 | 485 | 30 | 205 | 30 |
CF-8C | 19 Cr, 10 Ni, with Nb | 70 | 485 | 30 | 205 | 30 |
CF-16 & CF-16Fa | 19 Cr, 9 Ni, free machining | 70 | 485 | 30 | 205 | 25 |
CH-10 & CH-20 | 25 Cr, 12 Ni | 70 | 485 | 30 | 205 | 30 |
CK-20 | 25 Cr, 20 Ni | 65 | 450 | 28 | 195 | 30 |
CE-30 | 29 Cr, 9 Ni | 80 | 550 | 40 | 275 | 10 |
CA-15 & CA-15M | 12 Cr | 90 | 620 | 65 | 450 | 18 |
CB-30 | 20 Cr | 65 | 450 | 30 | 205 | - |
CC-50 | 28 Cr | 55 | 380 | - | - | - |
CA-40 | 12 Cr | 100 | 690 | 70 | 485 | 15 |
CF-3 | 19 Cr, 9 Ni | 70 | 485 | 30 | 205 | 35 |
CF-3M | 19 Cr, 10 Ni, with Mo | 70 | 485 | 30 | 205 | 30 |
CG6MMN | Cr-Ni-Mn-Mo | 75 | 515 | 35 | 240 | 30 |
CG-8M | 19 Cr, 11 Ni, with Mo | 75 | 520 | 35 | 240 | 25 |
CN-7M | 20 Cr, 29 Ni, with Co & Mo | 62 | 425 | 25 | 170 | 35 |
CN-7MS | 19 Cr, 24 Ni, with Co & Mo | 70 | 485 | 30 | 205 | 35 |
CW-12M | Ni, Mo & Cr | 72 | 495 | 46 | 315 | 4 |
CY-40 | Ni, Cr & Fe | 70 | 485 | 28 | 195 | 30 |
CA-6NM | 12 Cr, 4 Ni | 110 | 775 | 80 | 550 | 15 |
CD-4MCu | 25 Cr, 5 Ni, 3 Cu, 2 Mo | 100 | 690 | 70 | 485 | 16 |
CA-6N | 11 Cr, 7 Ni | 140 | 965 | 135 | 930 | 15 |
In present-day vocabulary, the term cast steel is almost always used in its sense referring to steel castings. Between the late 19th and mid 20th centuries, this was not always true, which is worth understanding if one is reading historical documents; see cast steel for details.
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. Casting is most often used for making complex shapes that would be difficult or uneconomical to make by other methods.
Cast iron is a class of iron–carbon alloys with a carbon content more than 2%. Its usefulness derives from its relatively low melting temperature. The alloy constituents affect its color when fractured; white cast iron has carbide impurities which allow cracks to pass straight through, grey cast iron has graphite flakes which deflect a passing crack and initiate countless new cracks as the material breaks, and ductile cast iron has spherical graphite "nodules" which stop the crack from further progressing.
Forging is a manufacturing process involving the shaping of metal using localized compressive forces. The blows are delivered with a hammer or a die. Forging is often classified according to the temperature at which it is performed: cold forging, warm forging, or hot forging. For the latter two, the metal is heated, usually in a forge. Forged parts can range in weight from less than a kilogram to hundreds of metric tons. Forging has been done by smiths for millennia; the traditional products were kitchenware, hardware, hand tools, edged weapons, cymbals, and jewellery. 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 to achieve a finished part. Today, forging is a major worldwide industry.
Aluminium–silicon alloys or Silumin is a general name for a group of lightweight, high-strength aluminium alloys based on an aluminum–silicon system, i.e., Aluminium-silicon alloys (AlSi) that consist predominantly of aluminum - with silicon as the quantitatively most important alloying element. Pure AlSi alloys cannot be hardened, the commonly used alloys AlSiCu and AlSiMg can be hardened. The hardening mechanism corresponds to that of AlCu and AlMgSi. The rarely used wrought alloys in the 4000 series and the predominantly used cast alloys are standardized in the 40000 series. AlSi alloys are by far the most important of all aluminum cast materials. They are suitable for all casting processes and have excellent casting properties. Important areas of application are in car parts, including engine blocks and pistons. In addition, their use as a functional material for high-energy heat storage in electric vehicles is currently being focused on.
Carbon steel is a steel with carbon content from about 0.05 up to 2.1 percent by weight. The definition of carbon steel from the American Iron and Steel Institute (AISI) states:
Tool steel is any of various carbon steels and alloy steels that are particularly well-suited to be made into tools and tooling, including cutting tools, dies, hand tools, knives, and others. Their suitability comes from their distinctive hardness, resistance to abrasion and deformation, and their ability to hold a cutting edge at elevated temperatures. As a result, tool steels are suited for use in the shaping of other materials, as for example in cutting, machining, stamping, or forging.
Die casting is a metal casting process that is characterized by forcing molten metal under high pressure into a mold cavity. The mold cavity is created using two hardened tool steel dies which have been machined into shape and work similarly to an injection mold during the process. Most die castings are made from non-ferrous metals, specifically zinc, copper, aluminium, magnesium, lead, pewter, and tin-based alloys. Depending on the type of metal being cast, a hot- or cold-chamber machine is used.
Sand casting, also known as sand molded casting, is a metal casting process characterized by using sand as the mold material. The term "sand casting" can also refer to an object produced via the sand casting process. Sand castings are produced in specialized factories called foundries. Over 60% of all metal castings are produced via sand casting process.
Tempering is a process of heat treating, which is used to increase the toughness of iron-based alloys. Tempering is usually performed after hardening, to reduce some of the excess hardness, and is done by heating the metal to some temperature below the critical point for a certain period of time, then allowing it to cool in still air. The exact temperature determines the amount of hardness removed, and depends on both the specific composition of the alloy and on the desired properties in the finished product. For instance, very hard tools are often tempered at low temperatures, while springs are tempered at much higher temperatures.
Lost-foam casting (LFC) is a type of evaporative-pattern casting process that is similar to investment casting except foam is used for the pattern instead of wax. This process takes advantage of the low boiling point of polymer foams to simplify the investment casting process by removing the need to melt the wax out of the mold.
A foundry is a factory that produces metal castings. Metals are cast into shapes by melting them into a liquid, pouring the metal into a mold, and removing the mold material after the metal has solidified as it cools. The most common metals processed are aluminum and cast iron. However, other metals, such as bronze, brass, steel, magnesium, and zinc, are also used to produce castings in foundries. In this process, parts of desired shapes and sizes can be formed.
Continuous casting, also called strand casting, is the process whereby molten metal is solidified into a "semifinished" billet, bloom, or slab for subsequent rolling in the finishing mills. Prior to the introduction of continuous casting in the 1950s, steel was poured into stationary molds to form ingots. Since then, "continuous casting" has evolved to achieve improved yield, quality, productivity and cost efficiency. It allows lower-cost production of metal sections with better quality, due to the inherently lower costs of continuous, standardised production of a product, as well as providing increased control over the process through automation. This process is used most frequently to cast steel. Aluminium and copper are also continuously cast.
Investment casting is an industrial process based on lost-wax casting, one of the oldest known metal-forming techniques. The term "lost-wax casting" can also refer to modern investment casting processes.
The SAE steel grades system is a standard alloy numbering system for steel grades maintained by SAE International.
In casting, a pattern is a replica of the object to be cast, used to prepare the cavity into which molten material will be poured during the casting process.
Permanent mold casting is a metal casting process that employs reusable molds, usually made from metal. The most common process uses gravity to fill the mold, however gas pressure or a vacuum are also used. A variation on the typical gravity casting process, called slush casting, produces hollow castings. Common casting metals are aluminium, magnesium, and copper alloys. Other materials include tin, zinc, and lead alloys and iron and steel are also cast in graphite molds.
Casting is a manufacturing process in which a liquid material is usually poured into a mold, which contains a hollow cavity of the desired shape, and then allowed to solidify. The solidified part is also known as a casting, which is ejected or broken out of the mold to complete the process. Casting materials are usually metals or various time setting materials that cure after mixing two or more components together; examples are epoxy, concrete, plaster and clay. Casting is most often used for making complex shapes that would be otherwise difficult or uneconomical to make by other methods. Heavy equipment like machine tool beds, ships' propellers, etc. can be cast easily in the required size, rather than fabricating by joining several small pieces. Casting is a 7,000-year-old process. The oldest surviving casting is a copper frog from 3200 BC.
Shell molding, also known as shell-mold casting, is an expendable mold casting process that uses resin covered sand to form the mold. As compared to sand casting, this process has better dimensional accuracy, a higher productivity rate, and lower labour requirements. It is used for small to medium parts that require high precision. Shell molding was developed as a manufacturing process during the mid-20th century in Germany. It was invented by German engineer Johannes Croning. Shell mold casting is a metal casting process similar to sand casting, in that molten metal is poured into an expendable mold. However, in shell mold casting, the mold is a thin-walled shell created from applying a sand-resin mixture around a pattern. The pattern, a metal piece in the shape of the desired part, is reused to form multiple shell molds. A reusable pattern allows for higher production rates, while the disposable molds enable complex geometries to be cast. Shell mold casting requires the use of a metal pattern, oven, sand-resin mixture, dump box, and molten metal.
A casting defect is an undesired irregularity in a metal casting process. Some defects can be tolerated while others can be repaired, otherwise they must be eliminated. They are broken down into five main categories: gas porosity, shrinkage defects, mould material defects, pouring metal defects, and metallurgical defects.
Centrifugal casting or rotocasting is a casting technique that is typically used to cast thin-walled cylinders. It is typically used to cast materials such as metals, glass, and concrete. A high quality is attainable by control of metallurgy and crystal structure. Unlike most other casting techniques, centrifugal casting is chiefly used to manufacture rotationally symmetric stock materials in standard sizes for further machining, rather than shaped parts tailored to a particular end-use.