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A core is a device used in
Green-sand cores makes casting long narrow features difficult or impossible. Even for long features that can be cast it still leave much material to be machined. A typical application is a through hole in a casting..
If Fubwhat is it?≤0, no chaplet is used.
If Fub>0, chaplets is used.
As mentioned earlier, cores are usually supported by two core prints in the mold. However, there are situations where a core only uses one core print so other means are required to support the cantilevered end. These are usually supplied in the form of ''chaplets''. These are metal supports that bridge the gap between the mold surface and the core. Since the chaplets become part of the casting, the chaplets must be of the same or similar material as the metal being cast. Moreover, their design must be optimized because if they are too small they will completely melt and allow the core to move, but if they are too big then their whole surface cannot melt and fuse with the poured metal. Their use should also be minimized because they can cause casting defects or create weak spots in the casting.. It is usually more critical to ensure the upper chaplets are stronger than the lower ones because the core will tend to float upward in the molten metal.
When casting a reentrant angle, instead of using a core a ''cheek'' can be used. This is a third segment in the flask, in addition to the cope and drag. This allows the entire mold to be made from green sand and from removable patterns. The disadvantage of this is more mold-making operations are required, but it is usually advantageous when the quantities are low. However, if large quantities of casting are required, it is usually more cost effective to simply use a core.
casting
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 ...
and moulding processes to produce internal cavities and reentrant angles (an interior angle that is greater than 180°). The core is normally a disposable item that is destroyed to get it out of the piece.. They are most commonly used in sand casting, but are also used in die casting and injection moulding.
For example, cores define multiple passages inside cast engine blocks. One model of GM V-8 engine requires 5 dry-sand cores for every casting.
Materials required to make cores
*Core sand *Bentonite clay *Pulverized coal *Resin oilAdvantages and disadvantages
Cores are useful for features that cannot toleratedraft
Draft, the draft, or draught may refer to:
Watercraft dimensions
* Draft (hull), the distance from waterline to keel of a vessel
* Draft (sail), degree of curvature in a sail
* Air draft, distance from waterline to the highest point on a v ...
or to provide detail that cannot otherwise be integrated into a core-less casting or mold.
The main disadvantage is the additional cost to incorporate cores.
Requirements
There are seven requirements for cores: #Green strength: In the green condition, there must be adequate strength for handling #In the hardened state, it must be strong enough to handle the forces of casting; therefore, the compression strength should be 100 to 300 psi (0.69 to 2.07 MPa). # Permeability must be very high to allow for the escape of gases. #Friability: As the casting or molding cools, the core must be weak enough to break down as the material shrinks. Moreover, they must be easy to remove during shakeout. #Good refractoriness is required as the core is usually surrounded by hot metal during casting or molding. #A smoothsurface finish
Surface finish, also known as surface texture or surface topography, is the nature of a interface (matter), surface as defined by the three characteristics of lay, surface roughness, and waviness.. It comprises the small, local deviations of a ...
.
#Minimum generation of gases during metal pouring.
Types
Many types of cores are available. The selection of the correct type of core depends on production quantity, production rate, required precision, required surface finish, and the type of metal being used. For example, certain metals are sensitive to gases that are given off by certain types of core sands; other metals have too low of a melting point to properly break down the binder for removal during the shakeout.Green-sand cores
Green-sand cores makes casting long narrow features difficult or impossible. Even for long features that can be cast it still leave much material to be machined. A typical application is a through hole in a casting..
Dry-sand cores
The simplest way to make a dry-sand cores is in a ''dump core box'', in which sand is packed into the box and scraped level with the top. A wood or metal plate is then placed over the box, and then the two are flipped over and the core segment falls out of the core box. The core segment is then baked or hardened. Multiple core segments are then hot glued together or attached by some other means. Any rough spots are filed or sanded down. Finally, the core is lightly coated withgraphite
Graphite () is a Crystallinity, crystalline allotrope (form) of the element carbon. It consists of many stacked Layered materials, layers of graphene, typically in excess of hundreds of layers. Graphite occurs naturally and is the most stable ...
, silica
Silicon dioxide, also known as silica, is an oxide of silicon with the chemical formula , commonly found in nature as quartz. In many parts of the world, silica is the major constituent of sand. Silica is one of the most complex and abundant f ...
, or mica to give a smoother surface finish
Surface finish, also known as surface texture or surface topography, is the nature of a interface (matter), surface as defined by the three characteristics of lay, surface roughness, and waviness.. It comprises the small, local deviations of a ...
and greater resistance to heat.
''Single-piece cores'' do not need to be assembled because they are made in a ''split core box''. A split core box, like it sounds, is made of two halves and has at least one hole for sand to be introduced. For simple cores that have constant cross-sections they can be created on special core-producing extruders. The extrusions are then cut to the proper length and hardened. More complex single-piece cores can be made in a manner similar to injection moldings and die castings.
Types of core:
*cold box
*half core box
*dump core box
*split core box
*left and right core box
*gang core box
*strickle core box
*loose piece core box
Lost cores
Cores are used for complex injection moldings in the fusible core injection molding process. First, a core is made from a fusible alloy or low melting temperaturepolymer
A polymer () is a chemical substance, substance or material that consists of very large molecules, or macromolecules, that are constituted by many repeat unit, repeating subunits derived from one or more species of monomers. Due to their br ...
. It is then placed inside the injection mold's dies and the plastic is shot into the mold. The molding is then removed from the mold with the core still in it. Finally, the core is melted or washed out of the molding in a hot bath.
Binders
Special ''binders'' are introduced into core sands to add strength. The oldest binder was vegetable oil, however now synthetic oil is used, in conjunction withcereal
A cereal is a grass cultivated for its edible grain. Cereals are the world's largest crops, and are therefore staple foods. They include rice, wheat, rye, oats, barley, millet, and maize ( Corn). Edible grains from other plant families, ...
or clay
Clay is a type of fine-grained natural soil material containing clay minerals (hydrous aluminium phyllosilicates, e.g. kaolinite, ). Most pure clay minerals are white or light-coloured, but natural clays show a variety of colours from impuriti ...
. The core is then baked in a convection oven between . The heat causes the binder to cross-link or polymerize. While this process is simple, the dimensional accuracy is low.
Another type of binder process is called the ''hot-box process'', which uses a thermoset and catalyst for a binder. The sand with the binder is packed into a core box that is heated to approximately (which is where the name originated from). The binder that touches the hot surface of the core box begins to cure
A cure is a substance or procedure that resolves a medical condition. This may include a medication, a surgery, surgical operation, a lifestyle change, or even a philosophical shift that alleviates a person's suffering or achieves a state of heali ...
within 10 to 30 seconds. Depending on the type of binder it may require further baking to fully cure.. Cores produced using this method are sometimes referred to as "shell-core" because often, only the outside layer of the core is hardened when in contact with the hot corebox. When the corebox is opened and the core removed, the uncured sand inside the core is dumped out to be reused. This practice can also be observed in some cold-box coremaking practices, though cold box shell-core making is much less common.
In a similar vein, the ''cold-box process'' uses a binder that is hardened through the use of special gases. The binder coated sand is packed into a core box and then sealed so that a curing gas can be introduced. These gases are often toxic (i.e. amine gas) or odorous (i.e. SO2), so special handling systems must be used. However, because high temperatures are not required the core box can be made from metal, wood, or plastic. An added benefit is that hollow core can be formed if the gas is introduced via holes in the core surface which cause only the surface of the core to harden; the remaining sand is then just dumped out to be used again. For example, a cold-box sand casting core binder is sodium silicate which hardens on exposure to carbon dioxide
Carbon dioxide is a chemical compound with the chemical formula . It is made up of molecules that each have one carbon atom covalent bond, covalently double bonded to two oxygen atoms. It is found in a gas state at room temperature and at norma ...
..
Special binders are used in ''air-set sands'' to produce core at room temperature. These sands do not require a gas catalyst because organic binders and a curing catalyst are mixed together in the sand which initiates the curing process. The only disadvantage with this is that after the catalyst is mixed in there is a short time to use the sand. A third way to produce room temperature cores is by shell molding.
The term ''no-bake sands'' can refer to either the cold-box process or air-set process.
Other considerations
To increase the strength of cores internal wires and rods can be added. To enhance collapsibility, straw can be added to the middle of the core or a hollow core can be used. This attribute is especially important for steel casting because a large amount of shrinkage occurs. Except for very small cores, all cores require vent holes to release gases. These are usually formed by using small wires to create holes from the surface of the mold to the core. When this is not feasible cinder and coke can be added to the core to increase permeability.Chaplets
If Fubwhat is it?≤0, no chaplet is used.
If Fub>0, chaplets is used.
As mentioned earlier, cores are usually supported by two core prints in the mold. However, there are situations where a core only uses one core print so other means are required to support the cantilevered end. These are usually supplied in the form of ''chaplets''. These are metal supports that bridge the gap between the mold surface and the core. Since the chaplets become part of the casting, the chaplets must be of the same or similar material as the metal being cast. Moreover, their design must be optimized because if they are too small they will completely melt and allow the core to move, but if they are too big then their whole surface cannot melt and fuse with the poured metal. Their use should also be minimized because they can cause casting defects or create weak spots in the casting.. It is usually more critical to ensure the upper chaplets are stronger than the lower ones because the core will tend to float upward in the molten metal.
Cheeks
When casting a reentrant angle, instead of using a core a ''cheek'' can be used. This is a third segment in the flask, in addition to the cope and drag. This allows the entire mold to be made from green sand and from removable patterns. The disadvantage of this is more mold-making operations are required, but it is usually advantageous when the quantities are low. However, if large quantities of casting are required, it is usually more cost effective to simply use a core.
See also
* Core plugNotes
References
*. {{Authority control Casting (manufacturing) Plastics industry