The subject of appropriate glues for binding montage has crept into the thread, and my statement that, until recently, I have almost always used epoxy led to some reaction and the drift into the adhesive debate.
The “received wisdom” is that the binding is held in the ski primarily by the engagement of the screw threads with the wood of the ski and that the main function of the glue is to prevent moisture from entering the ski core.
To those who would harbour any doubts as to the ability of epoxy to bond metal to wood may I suggest the following little experiment, which can be carried out in the comfort and privacy of your own home. Assuming access to a power drill, the material requirements are very modest:
Take a piece of scrap wood with a flat surface
Take a wood screw with a non-tapered shank, of the same shank diameter as a ski-binding screw (6mm), but somewhat longer (20 to 25mm overall length) and with a sharp tip
Some slow-curing, two-component epoxy
A pin, small nail, or paperclip
A drill-bit somewhat wider than the shank of the screw (I suggest 10mm)
Hammer
Screwdriver
Pliers
Drill the wood with the 10mm drill to a similar depth as a ski-binding bore-hole (9 to 10mm).
Mix a small amount of epoxy and fill the bore-hole. Have a small nail/pin/paperclip at hand to prick any bubbles which might come up – the aim is to get as much glue as possible into the hole. Use the head of a small nail or a matchstick to poke it in.
Set the screw centred in the hole and give it a tap with a hammer to seat it and/or give it a very slight turn with a screwdriver – just enough to have the screw standing upright in the middle of the hole.
You should now have something like this:
The screw is standing upright in the hole with minimal direct contact, apart from where the tip has been driven into the bottom of the bore-hole. There is no contact between the screw-threads and the side of the bore-hole.
Leave the glue to cure (usually 12 hours for slow-curing epoxy – I left this for 24 hours).
Now place the wood on the ground, put both your feet on it to hold it down, and try to remove the screw by grabbing the protruding head with the pliers and pulling directly upwards.
Let us know how you got on.
When you’ve had your fun at this and have used up your entire repertoire of swear-words, repeat the above steps, but using polyurethane glue. Use disposable gloves, as you want to avoid getting PU-glue on your skin. You can moisten the bore-hole slightly, as we’re told that PU-glue likes a bit of moisture to get it started. The PU-glue used here is the same brand and type as shown on the Åsnes website – so appropriate for ski binding montage.
When the glue has cured (again, I left it for 24 hours), take the pliers and pull upwards on the screw – this time without the bad language.
The two contestants square up to each other:
The result: KO in the first round – after about 3 seconds:
Both screws used were identical:
The above experiment says nothing about the moisture-sealing properties of the adhesives used. PU-glue has been attested to elsewhere as being very good at sealing out moisture. However, epoxy has been said to shrink over time and, by implication, have its holding and sealing properties diminished. Here is a photo of the 5 screws removed from the broken NNN BC binding. As stated in the opening post (penultimate paragraph), this binding was on the ski for 15 years and covered a very considerable mileage. On removal from the ski, after brushing off some wood/adhesive residue, I could find absolutely no trace of corrosion on the screws and would have no inhibitions about re-using them for another binding montage:
My conclusions:
1) A binding screw which has been epoxied into the ski will not come out, even when you want it to (unless you apply considerable heat, as described in my second post in this thread). The holding power remains undiminished, even after 15 years and considerable mileage.
2) The moisture-sealing properties of epoxy remain undiminished, even after 15 years and considerable mileage.
Epoxy for President!
