It's unlikely that the board itself will spontaneously experience RUD, so there will have had to have been (an) external event(s).
It's perfectly possible that the resistors are fried because they were initially a bit underrated and long running may have shortened their life. Alternatively, an unexpectedly high main voltage (we get up to 250VAC here out in the country) or a big spike/surge (think: lightning etc.) or network provider issues could have taken the unit out of its safe operating area (SOA). The TVS on the input (the round beigey-orange thing) will only absorb a certain amount of energy - at a certain point they just stop working or in extreme circumstances, they explode leaving black soot everywhere. See the photos below of a blue one (Aqualisa shower mixer controller) and the remains of a beige one (cooker hood fan & light controller)...
Record Power don't have the manual available and I can't find it elsewhere - any chance you can scan & post it (it'll be useful for others too, no doubt). It may give some insight to the use of the 1-8 jumpers, which in turn may explain a lot about how that PCB is supposed to work. It's possible, for instance, that the board implements a "slow-start" rather than over/under voltage protection - pure speculation until there's a schematic.
Whatever happens, that PCB only contains cheap and still-available discrete components - no microcontroller or sealed-up magic - so it most certainly repairable.
My original point remains - just repairing the board without understanding its operating conditions is probably a waste of time - definitely need the whole machine checked.
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