yes, again the 1mm2 will be fine. As you note most breakers are open, or at least well on the way to open, in a tenth of the assumed period, and even while opening,  the voltage drop across the stretching arc is eating into the power available to drive the full PSSC which is therefore falling..

Note that breaker makers sometimes publish a let-through figure I2t specific to the MCBs or whatever, or there is an upper bound in the standards.
ABB publish this helpful aide memoire

from here  The curves are far more revealing than the single figures often quoted, and explain some of the physics.

1) The dotted fuse curves show that at high fault currents, fuses become more or less constant energy devices - the number of joules to melt and the vaporize a fixed length of fusewire is more or less constant so long as you do it fast enough that no energy escapes out the side....

2) The solid slopes for breakers however show how at high currents they behave almost like constant speed devices - if you double the PSSC you almost quadruple the damage energy. Perhaps unsurprisingly in a device with moving parts where beyond a certain point, it can't go any faster.
It is worth realizing that in many ways cables are better protected against really big faults by fuses.

(and yes, 1mm2 cable really will be protected by a  60A  gL or similar fuse  so long as you have available  PSSC of 6000A plus, but not in a higher resistance setting.. )
Mike

Thanks Mike. I actually find this more interesting than doing the day job, unfortunately sitting doing calculations doesn't generate revenue.

I remember one of my instructors telling the group that if we ever find 2.5/1.0 it should be an automatic rewire, but in reality for at least 80% of cases it's perfectly fine and for the other 20% unlikely to actually cause a problem.

the biggest problem is that the 1mm cores tend to sneak round the sides of the screws and fall out of certain designs of terminal.

telling the group that if we ever find 2.5/1.0 it should be an automatic rewire

Note that the common advice in such a case to refer to  tables ZA1 and ZA2 of IEC 60898 or BS EN 6089 - assuming you have these to hand, and if not then look at page 14 of the BEAMA guide here will grossly over estimate the let-through energy in any systems that are not bumping right on the upper limit of PSSC. (compare the effect of a small drop in PSSC by looking at the shape of the ABB curves above.)
This makes things appear far more dangerous than they really are, and probably leads to a lot of perfectly serviceable / adequate kit being scrapped prematurely.
Mike

the biggest problem is that the 1mm cores tend to sneak round the sides of the screws and fall out of certain designs of terminal.

telling the group that if we ever find 2.5/1.0 it should be an automatic rewire

Note that the common advice in such a case to refer to  tables ZA1 and ZA2 of IEC 60898 or BS EN 6089 - assuming you have these to hand, and if not then look at page 14 of the BEAMA guide here will grossly over estimate the let-through energy in any systems that are not bumping right on the upper limit of PSSC. (compare the effect of a small drop in PSSC by looking at the shape of the ABB curves above.)
This makes things appear far more dangerous than they really are, and probably leads to a lot of perfectly serviceable / adequate kit being scrapped prematurely.
Mike