I have a FULGORE soldering iron (quite an unknown brand, isn't it?) and I think it is not working properly but I would like to hear the opinion of experts.
The iron, as mentioned in the title, operates on a nominal power of 25 W, but I have found it quite difficult to use – I think it is not transferring enough heat to the parts to solder.
After letting the iron heat up for about a minute or so, I try to melt solder to the tip of my iron, and it is possible, it just takes a couple of seconds; it is a lot easier melting solder on the sides than on the thinnest part of the tip though.
But then, if for example I wanted to solder two wires together, I would put the tip in contact with either of the wires, and stick the solder wire to the joint, waiting for the wires to get hot enough to melt the solder. This takes forever though, with this iron.
What could be wrong with my iron? Is it perhaps the iron itself?
Best Answer
We'll need more info to help you. First, post a picture of the tip itself. It could be damaged and we'll need to see it to be sure. I'll explain later on why that is important.
Next check your iron's manual and see what it say about time required to heat it up. My (also 25 W) says that 1 minute is needed to reach operating temperature. The heat transfer also depends a lot on the condition of the tip. If the tip is bad, then it could take a while for it to melt solder even if the temperature is reached.
Next are the wires. What size of wires are you using? The size of the wires makes a huge impact on the quality of the soldering and 25 W irons can't handle thicker wires (say greater than \$0.75\mbox{ } mm^2\$).
Are you sure that you're soldering them correctly? The description of the process makes me doubt that. You're supposed to first connect wires mechanically (here are some nice pictures) and then heat up the joint until it reaches the high enough temperature to melt the solder. You should connect the iron to the joint in such way that the both wires are in contact with the iron. Don't forget to have a little bit of solder on the tip of the iron when you make first contact. This will cause better heat transfer and in addition to that, once the tiny bit of solder on the tip flows into the joint, the region near the tip if probably hot enough to get the solder wire. In some cases if you keep heating up both solder wire and the joint at the same time, the flux from the solder wire can melt prematurely. The whole process should take only several seconds or the insulation of the wires can melt. If it takes too long, leave the iron for some time to heat up first.
About the comment:I agree that the water probably did it. Here we actually have several factors that work together to kill the iron. First one is the composition of the tip. Most tips are made from copper and better ones will have some fancy alloy at the tip of the tip which is supposed to prevent the working end from oxidizing. As the tip heats up, it becomes more chemically reactive and will tent to oxidize. To prevent the contamination of the working part, we put some solder wire there which will cover the working end of the tip and oxidize instead. So when we put that into water, it is to be expected that the tip will corrode. In addition to that it may react with any impurities in water itself and get even more contaminated. Same goes for the soldering iron itself. As the tip gets more corroded, its thermal resistance increases meaning that we'll have greater temperature difference between the heater and the tip. When connected to the heater, the tip will act as a cooler and when it's contaminated, its performance will decrease. That may cause the heater to overheat and in some cases my damage it. This may even destroy cheaper soldering irons completely.
Next we have the problem with rapid cooling in the water. When the tip heats up it expands and when it cools, it shrinks. In some cases cooling it very quickly can lead to creation of small cracks and small pieces of the tip may actually fall off. I suspect that the films were made by that process. You naturally want to prevent that from happening and that is another reason why you should let the iron cool off unassisted.
When you combine two of that, you get what you got.
Now for the iron itself... Check where exactly the heating element of the iron comes into contact with the tip and how the system works. If that part isn't corroded, then I'd let the iron be and get a new tip. I fear that agitating the corroded part would only make the problem even worse. If the part where the tip comes into contact with the heater is corroded, then you could try cleaning it somehow. It should (hopefully) make the tip's contact with the heater better. If it's really badly corroded, then consider getting a new iron.