Fluoroelastomer Specialists
Transfer moulding is one of the numerous ways in which engineers manufacture rubber parts. Transfer Moulding is the process of loading a raw material prepared into “pre-forms” into a pot integral to the mould tool. The material is measured and inserted prior to the moulding process taking place. Once the mould is closed, this material is then preheated and loaded into the pot.
An integral plunger then compresses the rubber in the pot and is used to push the material through the holes, feed gates or sprues into the product mould cavities, to fill them in the same way as an injection moulding would. Transfer moulding is a process that provides the accuracy and consistency of injection moulding without the requirement for long production runs, or costly full injection tooling.
This is an ideal process for forming parts which may require exact positioning inserts to be bonded, intricate parts with lower production requirements and mould designs that contain multiple cavities or can trap air. The mouldings provided are far less likely to exhibit knit lines or other defects, creating a much more consistent approach to production. This process is ideal when looking to produce plastic or rubber parts with metal inserts. For example, Transfer moulding is an excellent way to create composite seals with insert moulding, which then float inside the cavity.
Given that cavities are not reliant upon one another, they are able to move freely rather than being cut directly into the same plate. This helps to absorb variations in tolerances, so the mould will stay consistent.
Various inserts made from plastic and metal can be used to make composite seals and other products, which allow for multi-component sealing solutions, helping reduce overall component count in assemblies and providing a more resilient product.
Advantages:
Shorter production cycles for higher weight parts
Transfer moulding offers shorter production cycle times than traditional moulding techniques, such as compression moulding, as the compound preparation and product finishing time is greatly reduced. This means there is less cutting and flash. Cure times are reduced since the rubber enters the mould cavity at a higher and even temperature, and can thus begin to cure more quickly.
Tighter dimensional tolerance
The overall process also allows for much tighter tolerances, leading to more complex parts, which is difficult to achieve with compression moulding. Given that the mould is not held open by surplus material spilling out of the cavity parting line, any excess holds the plunger open from the pot, therefore not affecting the actual part being produced.
Read more: Advantages and Disadvantages of Transfer Moulding