CYMK Black is not
black, Black. It’s Process Black. All the colors in CYMK printing have some transparency to them, including the black (K). This is so they can overlay each other to visually mix and offer a wider gamut of color when printed. Solely using K to define a black in a CYMK workflow will result in a really dark gray appearance when printed on white. A double hit or second application of Process Black will make it darker because that lessens the transparency of the ink.
To expand on the mechanics of the RGB and CYMK color models —
RGB is a subtractive color model based on the effects of light. The less light one sees, the darker the object appears.
CYMK is an additive color model based on the effects of pigment. The more pigment there is, the darker the object typically appears.
On your computer monitor, an RGB device, the CYMK color palettes are represented by some calculation that someone in a dark room in Ottawa, Canada thought would best represent the effects of the final printed piece using K (black) ink — but, defined it using the RGB color model for the sake of displaying it on the computer monitor. Usually, the difference in these blacks can be seen in a side by side comparison on your monitor. Of course this depends on the resolution and calibration of you monitor, and the accuracy in which the palettes were built.
For output, because one cannot print light, the RGB color model is converted (RIPped) to a CYMK color model. Again, someone in Ottawa — where Corel is built — defined an equation that would convert the RGB color to something that could be represented by CYMK for printing. (Probably, there’s some international standard that legislates color conversion charts somewhere, but I’m still going to credit the Canadians for this.)
Because the R-0, G-0, B-0 black is not seen as a transparent black, it is calculated to use all of the colors of the CYMK ink set. These equivalent values are calculated to offer a neutral black dense enough for efficient CYMK printing.
To mimic this in a CYMK work flow, one can define a rich black by adding CY and M to the Process Black (K) to increase the density (more pigment) of the ink that is printed. — as noted by the formulas in previous posts. This adjustment is balanced to get the best effect with the least amount of ink. The dry time of the inks is the primary concern when defining a CYMK rich black.
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Sooooooooooo, the bottom line difference, between the blacks in RGB and CYMK color palettes is density and transparency when printed. When viewed on the monitor, the difference is calibration and resolution of the software and monitor.
