- Transfer molding
Transfer molding, like
compression molding, is a process where the amount of molding material (usually a thermoset plastic) is measured and inserted before the molding takes place. The molding material is preheated and loaded into a chamber known as the "pot". A plungeris then used to force the material from the pot through channels known as a sprueand runner system into the mold cavities. The mold remains closed as the material is inserted and is opened to release the part from the sprue and runner. The mold walls are heated to a temperature above the melting pointof the mold material; this allows a faster flow of material through the cavities.
"Transfer Molding." This is an automated operation that combines compression-, molding, and transfer-molding processes. This combination has the good surface finish, dimensional stability, and mechanical properties obtained in compression molding and the high-automation capability and low cost of injection molding and transfer molding. Transfer Molding is having a "piston and cylinder"-like device built into the mold so that the rubber is squirted into the cavity through small holes. A piece of uncured rubber is placed into a portion of the transfer mold called the "pot." The mold is closed and under hydraulic pressure the rubber or plastic is forced through a small hole (the "gate") into the cavity. The mold is held closed while the plastic or rubber cures. The plunger is raised up and the "transfer pad" material may be removed and thrown away. The transfer mold is opened and the part can be removed. The flash and the gate may need to be trimmed.
Transfer molding provides product consistency. Transfer molding has short cycle times. Transfer molding is suited for rubber to metal bonding.
The molds in both compression and transfer molding remain closed until the
curingreaction within the material is complete. Ejector pins are usually incorporated into the design of the molding tool and are used to push the part from the mold once it has hardened. These types of molding are ideal for high production runs as they have short production cycles. Transfer molding, unlike compression molding uses a closed mold, so smaller tolerances and more intricate parts can be achieved. The fixed cost of the tooling in transfer molding is greater than in compression molding and as both methods produce wastematerial, whether it be flash or the material remaining in the sprue and runners, transfer molding is the more expensive process.
Transfer molding (TM) (or resin transfer molding, RTM) differs from compression molding in that in TM the resin is inserted into the mold (or tool) which contains the layers of fibres or a preform, whereas in compression molding prepregs or molding compounds are in the mold which is then heated and pressure is applied. No further pressure is applied in TM.
In RTM the resin is injected or drawn into a mold, which contains the fibres, from a homogeniser under low pressure.The mold can be made from composites for low production cycles or with aluminium or steel for larger production. The differences between the two types being that metal has better heat transfer, hence quicker cycle times; metal lasts longer and deforms less, but at a higher cost. The main problem with this production route is that air can be trapped in mold and hence a method must be incorporated for allowing this air to escape. A number of solutions to the problem exist including extending one level of reinforcement beyond the cavity (with a 25% resin loss), appropriate vents and creating a vacuum in the mold (which also improves quality). Larger structures, better properties (less movement of fibres), increased flexibility of design and lower cost are some of the advantage this process has over compression molding due mainly to the low pressure injection. Other benefits include rapid manufacture, not labour intensive, ability to vary reinforcements easily or include cores such as foam and produce low and high quality products.
semiconductorindustry, package encapsulationis usually done with transfer molding due to the high accuracy of transfer molding tooling and low cycle time of the process.
However, the drive to introduce "Green" manufacturing is becoming a mandatory process in most semicon assembly operations. New transfer mold designs integrated with suitable surface treatments like CrN, MiCC and H Cr plating are becoming more popular in the industry.
Some Reference used in this page:Manufacturing Engineering and Technology 5th Edition (Serope Kalpakjian-Steven R. Schmidhttp://www.mfgquote.com/categories/subprocess-molding-transfer-molding.cfm
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