Lighter, more dimensionally stable and more economical components thanks to plastics foaming

You're probably familiar with this: you open a bottle of coke which has been shaken thoroughly beforehand, immediately foam shoots out of it and spreads generously in the vicinity. In principle, foam injection molding works in exactly the same way! A propellant is added to the material (in the case of coke, this is the carbonic acid) which dissolves evenly in the material due to high pressure and high temperature (corresponding to the shaking of the coke bottle). If the pressurized polymer gas solution is injected into the mold cavity (or if the coke bottle is opened), this causes a sudden drop in pressure in the material, the mixture becomes supersaturated and the dissolved gas escapes to form foam. The only serious difference in foam injection molding (called foammelt at ENGEL) is: In contrast to the coke experiment, the process takes place under controlled conditions - after all, we want a functioning component at the end and not a mess.

Basically, there are two foaming processes, which differ in the type and insertion of the blowing agent into the polymer:

1. In physical foaming, gas (usually nitrogen or carbon dioxide) is introduced into the melt after plasticizing. This requires additional equipment. Which gas is used depends on the component geometry and the desired end use.

2. In chemical foaming, a blowing agent in granulate or powder form is added to the primary material. The subsequent plasticizing process melts the blowing agent and releases gases (this process would be like Mentos in a coke bottle). Chemical foaming does not require any additional equipment and is therefore easier and cheaper to implement.

Both processes have in common that the melt viscosity is reduced. As a result, the cavity pressure is considerably lower than in compact injection molding, which on the one hand has a positive effect on the service life of the mold and on the other hand also leads to a reduction in the clamping force. Very often, the lower clamping force also leads to smaller machines, which in turn reduces the investment. Our patented, tie-bar-less ENGEL victory series is predestined for the production of large components on smaller machines.

• How it works: A blowing agent (gas) is dissolved in the material. Injection is accompanied by an abrupt drop in pressure, causing the gas to escape while foaming.

• The advantages: Plastic foaming is economical, it reduces delay thanks to homogeneous internal pressure in the cavity, and it produces lighter components.

• What is needed: Gas and additional equipment for its injection (physical foaming) or only blowing agent (chemical foaming), with no need for further equipment.

Simply contact our experts - we will be happy to provide you with comprehensive advice and work with you to develop a solution tailored to your individual requirements. In addition, a foammelt conference is held at ENGEL every year with many interesting lectures on all aspects of foaming.