I have found these are required for any light alloys and plastics. If you don’t use a prewinder on Auminum, Magnesium, Copper Alloys, etc… odds of failure are much greater.
The inexpensive one piece installation tools are fine for steels, cast iron, or other strong alloys because the base material doesn’t wear out when the coil is stretched as it is installed.
If you use the inexpensive one piece tools on soft alloys and plastics, the Helicoil wears out the top few threads as it is stretched, causing the STI tapped hole to become slightly tapered. This results in poor thread engagement, and pullout strength is greatly reduced.
Using the prewinder tools eliminates this issue because the prewinder stretches the helicoil before it passes into the base material. This preserves the integrity of the STI tapped threads so the Helicoil fits properly. Makes for a bullet proof reinforcement.
I have done pull out testing, and it makes a surprisingly large difference what tool you use to install Helicoils into light alloys. Steel and iron really didn’t show any noticeable difference between tools.
Also, I have tested other STI tapped hole inserts in 6061 T6 Aluminum with a hydraulic stress test machine, I did a head to head of M8 and M10 Helicoils, Keenserts, and Timeserts. Keenserts and Timeserts are very similar solid wall inserts, differing only in the way they lock into the hole. Keenserts have a keys then get pressed into the base material, and Timeserts have the bottom threads sweged into the base material. Both failed in the exact same way. The top 1/3 of the insert cracked and separated from the bottom 2/3. Then the remaining bottom 2/3 pulled out. You could watch it on the graph. Stress would rise, then you hear a pop and the stress instantly dropped off a bit, then rose again until it pulled. Interestingly enough the Helicoil inserts pulled all in one go, however, at a higher stress than Keenserts and Timeserts. Helicoils were the strongest, about 5-10 % higher across the board. Keenserts were the next strongest, followed closely by Timeserts.
Funny, because so many sing the praises of Timeserts and condemn the Helicoils. I suspect this is largely due to not selecting the proper installation tools for the base material. For those that have no luck with Helicoils in Aluminum, I bet they are using the one piece Helicoil installation tools, and not a prewinder.
The reason why the solid wall Keenserts and Timeserts fail the way they do is because most the load is taken up by the first few threads, same as if it were a normal tapped hole. This means the strain (inches/inch, or MM/Meter) Is higher at the top than the bottom. In other words, the top stretches more than the bottom, so it reaches ultimate yield before the bottom. Helicoils, due to their flexibility, distribute the stress in the fastener much farther down from the surface, so the strain is relatively consistent from top to bottom, so no single spot is taking up the majority of the load. In other words, you can put much more tension on a bolt with a Helicoils before the any individual thread reaches ultimate yield.
I use Helicoils all the time. I design and build some machines, jigs, fixtures, etc with Helicoils in every aluminum tapped hole. Particularly in cast tool and jig plate, or where fasteners may be removed and retorqued. It makes a darn near bullet proof joint. Far superior to a regular tapped hole. Recently I have been dabbling with Helicoils for every stud/bolt on built engines with Aluminum heads. So far, the biggest benefit seems to be on the exhaust studs. Much stronger.