Below are 2 techniques for you to revive your seemingly dried up printer ink cartridges:
1.) Take out the cartridges from within the inkjet printer and place the clogged nozzles positioned down in a dish with hot water and dish soap or bleach and soak them until the ink starts to flow from the nozzles.
2.) With regards to printer models where the print head is incorporated in the printer, remove the cartridges and locate the spot where the ink dispenses from its support area. It is ordinarily a round sponge looking hole. Place some drops of isopropyl alcohol on these spots by using a Q-tip or an eyedropper.
The print head is identified by a copper colored plate attached to an electronic strip resembling a circuit board.
In the event that these methods do not succeed, your ink cartridges have in all probability failed mechanically. Exactly how they have failed to function mechanically is dependent upon the technology used by the particular manufacturer.
The print technology utilized by Canon and HP in their inkjet printers are actually quite similar. In order to eject an ink droplet from the cartridge's reservoir, a pulse of current is passed through a resistor, rapidly heating the liquid ink, causing the ink to boil and to vaporize inside the chamber creating a bubble. This results in a large pressure increase which in turn pushes the ink onto the paper. If the resistor in the cartridge or its heating element fails or gets burnt out at some point, the ink will not be fluid enough to pass through the nozzles.
Epson printing heads implement what are classified as "piezoelectric" materials which flex whenever an electrical charge is transferred through them. Parts composed of these elements are designed in back of the print nozzles. As soon as an initial electronic charge is applied to them, these elements contract backwards, sucking specific quantities of ink from the ink chamber in to the firing chamber. Once the electrical pulse is reversed, the piezoelectric materials contract the reverse way very instantly, moving the ink out from the nozzles at a high rate.
By using piezoelectric concept, the amount of ink drawn inside and then discharged out of the nozzles can be quite precisely controlled simply by varying the electrical charge supplied to the piezoelectric elements. This allows the print head to eject ink droplets in a wide variety of precisely controlled capacities. Once again, if these elements burn out, either by working with an unfilled ink cartridge or by chance, you will not have ink firing from its chamber.
As we discussed, it's not easy to diagnose a non printing ink cartridge. The most straightforward approach is to assume dried ink has clogged the nozzles and it might be best to use the strategies previously mentioned to break up the dried ink. If the print head is internally built in the printer, then it's worth to save the printer by trying to unclog the print head. Alternatively, if the print head is on the ink cartridge itself, time would be effectively spent to just replace the printer cartridge with a new one or a more cost effective high quality compatible ink cartridge at Toner2Ink.com.