Most manuals on basic electronics will include tables of typical
Rth for various mounting media. This is drawn from empirical data
that you can duplicate on your own bench.

If isolation is not required, I've had excellent results introducing
soft copper wafers into the junction. These seem to deform to
reduce issues with surface flatness. Also useful when efficient
high-current conduction is required between the two surfaces.

Properly-mixed silicon oil won't make a mess if properly applied.
If you recheck older junctions, you'll see that they are fairly
hard to break, due to their air-free composition.

This is old tech.

RL

Numbers can be found. For instance see page 8 of Philips AN10384

piglet

It was quite a simple setup.

Same heatsink, same stress test and note down the CPU core temperature
at equilibrium. CPUs are convenient in already being well instrumented -
the biggest difference was nothing vs anything else.

There is an 80:20 rule at work here - you get 80% of the improvement by
eliminating the tiny air gap by wetting it out with a heat transfer
medium and the rest is incremental using ever more exotic materials.

In the extreme they still use the near lethal BeO ceramic material in
some high power RF transistors since it is second only to diamond for
thermal conductivity whilst being an electrical insulator.

https://materion.com/-/media/files/ceramics/articles/beo-still-a-force-in-rf-power-transistor-packaging.pdf

In the bad old days you used to have to be careful of TO-3 can
transistors that had blown their top for that stuff. These days they use
inferior but much safer alternatives like alumina and aluminium nitride.

You say that there are no numbers. Where have you been looking?
If you are prepared to de-rate accordingly then there isn't really a
problem but if you want to run them at full power then they need to be
in intimate contact with their heat sink and that means wetted by some
sort of heat transfer medium. I was quite impressed with the bluetack
like stuff that came with my Raspberry Pi passive aluminium heatsink.

I found the pads more annoying to handle than silicone grease YMMV.
Getting them on square was much harder than just adding a dab of goo.

Diamond doesn't melt at room temperature. There is a
diamond/graphite/liquid carbon triple point at 12 GPa at 5000 K, but
your lump of metal wouldn't get hot enough to get anywhere near that.

The three microscopic points will distort so that that the compressive
force is spread over three finite - but small - areas.

With very clean surfaces under vacuum you get microwelding as the metal
at the microscopic contact points diffuses into the surface it is
squeezed up against. This can be a problem if you wan to dismantle your
gear later.

<snip>

I expect they will stretch when heated, so you might see increasing
failures over time. Not an easy problem...

The recommended mounting torque is about 6lb-in and the plastic screws I
am familiar with have max rated torques much less than half that.

Even if you find a plastic screw reliable for that torque including a
conical belleville compression washer might be good to accommodate
slippage and creep.

I suspect a good spring clip may be more consistent and quicker in
production.

piglet