The STP55NF06L's aren't the greatest FET's on the block, but for driving the heater element they should be fine. I personally use FDP8870's, which have 1/10th the Rds(on) resistance (their internal resistance when switched on).
FET's usually fail either short circuit or open circuit. Short seems to be the most common (from memory here), which then tends to cause other issues.
What could happen (though unlikely) is that a bad FET will fail with one of the pins coming off inside the FET (usually on the silicon die in the FET, but could be off the pin end that connects to the PC
. This works fine until it gets to a certain temp, then the pin lifts and it stops working. It's a very uncommon mode of failure, however there are rumours of some cheap knock-offs of the STP55NF06L's out there, and it's quite possible that this could be an engineering fault with a knock-off like this.
That said, the best idea would be to
systematically test around things, rather than just blindly replacing stuff because it seems suspicious. I personally don't like replacing things like FET's because there is a small possibility you might damage the board. Specifically, you might remove any hole-plating connecting one side of the board to another when taking the FET out, leaving you with something that may or may not work when you put it back together. A person who has good soldering skills can usually avoid this (especially if they have a vacuum desoldering station), but not everyone has good soldering skills and/or the appropriate tools on hand, and even a pro can make a mistake now and then.
I would test the hot-end (the "apply power directly" method, without the FET involved, maybe with a fuse to protect your PSU) and watch the temp in something like pronterface and possibly watch the current with an ammeter. This way you can drive it up to temp and switch on/off to see if it faults without the FET. If the hot-end is 7 ohms, you should be drawing less than 2 amps at 12V, and most ammeters have a 10A range, so you should be quite safe.
Also check the screw connectors (perhaps using an interior 12V car light bulb - something that doesn't draw more than say 2A of current - in place of your heater element, or even in parallel with it if you're not going to use the "apply power directly" method). See if it stops working, etc. Internally broken screw connectors will seemingly work fine then fail when they get warm or if there is too much current. If you suspect this, an easy test is to solder the wires direct to the board and see if it continues to happen.
Remember also that firmware will usually shut down the heater if it gets an erroneous reading from the thermistor (ie: too HIGH a temp, which is almost the same as open circuit), so make sure you don't have an intermittent connection there (could be in the hot end), and your thermistor is correctly specced in the firmware (eg: you have a 200k thermistor, and it's specified as 100k in the firmware, or even the wrong type of 100k thermistor). This may only happen with a highish temp, so you should catch it with the "apply power directly" technique above.
An advantage of using the "light bulb" and "apply power directly" method together is that when you reach temp, the light bulb should go out (which you should probably be able to notice even if you're looking at a GUI/graph interface on your PC), and you know to disconnect the power to the extruder. If the hot end isn't getting hot enough, but the board has cut out, you know the issue isn't with the heating element in the hot end, and you can start to "narrow down" the possibilities.
Notes:
- If the through-hole copper on the board is damaged, either from the manufacturer or by desoldering the FET yourself, you can have a FET that will work intermittently (touches the copper - heats up and bends just enough away to break the contact on one of the pins). In this case, I'd heat the pin from the bottom of the board with a soldering iron and apply solder on the other side to bridge the pin and the pad with a small amount of solder (not too much!) - not always an easy job though. Also a bad solder joint (frosted/crystalline surface finish) can have intermittent properties, so if you suspect them, remove some of the solder (use desoldering braid or untinned copper wire to soak up some of the solder, or a solder sucker) and re-do them.
- Using the "Apply power directly" method, DO NOT drive the temp over 220 deg C if you can help it. If you remove the power at 220 deg C, you will see the temp shoot past that (extra power applied from the time you've noticed it go above 220 deg C and when you've removed the power from the hot end - basically your reaction time). This hopefully should avoid it going over 240 deg C, which if your hot end has PEEK or PTFE in it, could lead to those plastics breaking down (let alone burning ABS or PLA). You could probably stop at 190-200 (since you say it happens at 185 in your post). I mention this here though as I'm sure someone else might see this and "give it a try" - I'd like people not to kill their machines or set fire to stuff!
Hope this helps.