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Gating systems

Task 3. Fill in the gaps with the words given bellow. Translate the sentences. | Task 10. Retell the text “My Future Speciality”. | Casting Terminology | Think of your own sentences according to this pattern. | Task 8. Translate the following sentences into Ukrainian, paying attention to the modal words. |


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Mold-joint gating. The systems of this type of gating are the simplest and find wide use for running various castings in molds having a depth of the cavity from the parting line to its lowermost point up to 200 mm (the allowable height from which the incoming metal falls on the bottom of the mold without causing perceptible damage to the walls). When using such gating systems, one should take account of the mass of melt and its pressure on the mold walls, which depends on the sprue height.

Bottom gating. The bottom gating systems allow the quiet flow of metal into the mold. In casting a gear, for example, the metal enters the casting through the gate that runs to the bottom of the hub, but not to the teeth. Bottom gating is applicable for running both small and large castings. In the mass production of small castings, however, molding machines are rarely used to prepare molds for bottom pouring since the gating system here calls for the production of special cores.

Quiet entry of metal into the mould cavity is best achieved by its introduc­tion at the lowest level. Using this method the metal rises steadily through the mould, splashing is eliminated and dislodged moulding material tends to be carried to the surface. If bottom gates are used with top feeder heads the resulting temperature gradients are opposed to feeding, but various measures are available to mitigate this effect. Despite the greater complexity of moulding the method is much used for heavy castings.

Top gating. The gating systems of this type are employed to run both medium-size and large castings such as flywheels, gears, and cylinders. In the shower-type top gating system, the metal runs into the mold from the top through a shower gate that consists of several small-diameter pencil gates cut in the pouring cup or in a special core. The shower gate has the disadvantage of producing a splashing effect: as the stream of metal falls on the mold bottom or on the surface of the melt, it splashes and thus forms on the mold walls beads (buttons) of solidified metal that does not weld up with the basic metal of the casting. A combination of the bottom gate and the shower gate used in practice does away with this drawback.

An important feature in favor of the shower-type gating system is that the metal uniformly fills the mold without overheating its individual portions. This results in a sound casting free of porosities and shrinkage cavities.

When metal is poured through a top gate or directly into an open feeder head, the stream impinges against the bottom of the mould cavity until a pool is formed; this is kept in a state of agitation until the mould is filled. The erosive effect of the unconfined stream can be severe, whilst the associated splashing gives opportunity for oxidation. The mould surface can, however, be protected at the point of impact by preformed refractory tiles; the intensity of erosion can also be reduced, where fluidity of the metal permits, by the use of pencil gates. This method and others which divide the metal stream are unsuitable for alloys which are sluggish or prone to rapid oxidation, but are used with success, for example, in the gating of cast iron.

The principal advantages of top gating are its simplicity for moulding, its low consumption of additional metal and, above all, the generation of temperature gradients favourable to feeding from top heads; this arises from the proportionately rapid cooling of the first metal poured, followed by the progressive accumulation of metal from above until the mould is full.

Composite gating. The gating systems of this variety serve for running intricately shaped, high, thin-walled castings. The system is a combination of the bottom gate and the shower gate. The mold is first poured through the bottom gate and then through the shower gate. This pouring method prevents mold erosion and metal splashing. As the metal fills the mold, its level in the sprues gradually rises, and, starting at a certain moment, the upper gates begin to feed the casting.

Step gating. Step-gate systems are used for running large and heavy castings. The step-gate construction enables subsequent feed of the casting through the gates from the bottom upwards. The molten metal flows from a basin down a sprue and into a runner through a choke whose cross section determines the rate of pouring. The metal then runs through branched vertical runners into gates. Because the runners have a larger cross section than the choke, the melt first goes into the lower part of the casting and then into its upper part through the next gates. Such a system excludes overheating and erosion of the mold at the inlet to the cavity and enables the production of high-quality castings.

Stack gating. This system of gating is employed in stack molding of small castings and also in casting of small pieces on automatic flaskless molding lines producing molds with a vertical parting joint. The ingates for every row of castings differ in cross section: the higher the position of a gate, the larger its cross-sectional area, with the result that the pouring time for every casting becomes the same.

Side gating. Moulding can be simplified by the discharge of metal into the side of the mould cavity through ingates moulded along a parting plane; this practice frequently offers the best compromise between moulding convenience and the ideal gating arrangement. Using side gating, progressive mould filling can be achieved by tilting the mould towards the ingates to provide uphill casting conditions.

Many variations of bottom and side gating find practical application. Apart from the multiple systems to be separately considered, the horn gate is one widely applied form of bottom gate. This type of gate, with its smooth curves and progressive change of dimensions, is designed to minimize erosion and oxidation. Since the normal horn gate is prone to jet effects, the reversed horn gate has frequently been adopted for those alloys such as the aluminium bronzes which are especially susceptible to skin formation, although opinion is not unanimous as to its effectiveness.

These fundamental differences in running and gating practice have been the subject of such attention in the production of aluminium alloy castings, given the now well-recognized dangers of insidious oxide film defects arising from surface turbulence and air entrainment.

Multiple gating systems. Whilst small castings are commonly either top poured or gated through a single sprue and ingate. The latter method becomes increasingly unsuitable for castings of larger dimensions, because of the danger of overheating the mould adjacent to the point of entry and because of the long flow distances within the mould cavity.

The solution lies in the use of more complex gating systems in which the metal is directed through separate gating elements to different parts of the mould. Multiple systems can be used either to introduce the metal at widely separated points in the same horizontal plane, or at higher levels as in step gating. The choice or combination of these methods depends upon the shape and orientation of the casting. In multiple gating it is necessary to control the distribution of metal between the separated elements of the system.


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