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TPGOA Technical Insights

Injection Molding Material Cushions

There are two definitions for cushion in molding: 1) the position of the screw when the hold or second-stage timer ends; 2) the most forward position the screw reaches during injection (first or second stage). Sometimes this is labeled “cushion minimum.”

While these definitions are not the same, the values they produce may or may not be, depending on the mold, machine, or process. Confused? To duplicate and document a process correctly, the molder needs to know the difference and understand what the machine is reporting.

Let’s use an example to explain. Suppose that during first-stage injection, the screw reaches 6 mm from the forward zero position—the transfer point from first to second stage. Thus, 6 mm is the stroke transfer position (velocity to pressure control, or V to P). And suppose that there is enough hold pressure so there is no bounceback of the screw and it continues forward to pack the part. At the end of the second stage (pack and hold), the screw is at 3 mm, which makes this both the position of the screw at the end of second stage and the screw’s most forward position. In this scenario, both definitions of cushion would result in the same 3-mm value.

In another scenario, let’s say the screw reaches the 6-mm stroke transfer position during the first stage, yet bounces back slightly due to a required low hold pressure to minimize overpacking at the gate. (For some parts, screw bounceback is acceptable as long as the flow front does not hesitate in filling the cavity. Plastic is compressible.) Here, the position of the screw at the end of hold is at 8.5 mm. Some machines will report a cushion of 6 mm, and the screw position at the end of hold as 8.5 mm. Another machine would simply report 8.5 mm as the cushion, and yet another might report cushion as 6 mm. My preference is to see both reported. This is not a case where one machine is better than another, just that there are two definitions being used and you need to know what the numbers mean. Which definition is right or best? That’s not my call. Better check out what your machines are reporting to you. Is your documentation correct?

What’s Acceptable?

Now that the definitions are established, what should the cushion be and what is an acceptable range? My bet is that if we sampled 50 molders, we would have lots of different responses. To start answering these questions, let’s state the purpose of a cushion: to provide a pressure pathway to enable packing out the part. To properly pack out a part, there has to be plastic in front of the screw/non-return valve (check ring) to provide a means to transmit plastic pressure through the nozzle, sprue, runner, and gate(s) to the part. There are processes such as gas assist that do not require the injection unit to pressurize (pack out) the cavity, but for our discussion, we will stay with conventional injection molding.

On a hydraulic machine, you can program hold pressure: for example, if you set 850 psi (59 bar), you will get 850 psi hold pressure for the time you set on the second-stage or hold timer. However, if the screw reaches the zero position or “bottoms out” at any time during the hold stage, there is a good chance you’ll make a bad part. Without that “cushion” of material in front the screw, the hydraulic pressure is not developing any plastic pressure in the nozzle, and most likely the part won’t be properly packed.

On an electric machine, if the screw reaches the zero position, the results will be the same. However, the controller is often programed to reduce the hold pressure to some minimum value to avoid unnecessary load on the expensive electric servo motor. The controller knows the screw cannot move forward any further and subsequently reduces the forward pressure.

While I prefer units of volume for shot size and cutoff position, cushion is best stated as a distance. Picking a particular volume as a rule of thumb would be a very small distance on larger screw diameters. My target is about 6 mm, or 0.25 in. This assumes that the numbers on the controller screen are accurate.

If the position sensor is not calibrated correctly, you could be reading a 3-mm cushion on the controller when in fact, the screw is at the bottom or end of the stroke. Safety tip: it is critical that the screw tip never touch the barrel end cap, because it has the power (pressure) to blow the end cap off. There is always a minimum clearance; my understanding it is about 1.5 mm (0.060 in.). The hydraulic cylinder has stops in it to prevent going beyond this, providing the screw is the correct length. (I am not sure how electric machines handle this.)

Finally, how much shot-to-shot variability is acceptable? In an ideal world, the answer is zero.

Unfortunately, variability is a fact of life due to check-ring design, wear factors, contamination, lack of maintenance, and the fact that most non-return valves have a propensity to leak differently from shot to shot.

TPG makes every effort to insure that the information contained herein is accurate - however, we accept no liability for the content of this piece, or for the consequences of any actions taken on the basis of the information provided.
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