Geogg,
I don't really know the answer to that question. Last year I purchased an R1800 believing the same thing, i.e. that since it used the K3 pigmented ink set it would give the same UV blocking density as the R2400. But that is not the case.
The 2400, when printing grayscale, uses a tight dither of three shades of carbon black, which gives it excellent UV blocking capability. And good tracking between UV blocking and visible green and blue blocking. The 1800 only has one full strength black, it tries to make grays by using a mix of red, blue (yes, it has both of those), cyan, magenta, and yellow. The end result isn't that great for a print, and is horrible for a negative.
It is possible to control an 1800 with Quadtone RIP and build curves based on the UV blocking ability of each color. The negatives will look strange as heck, but they will work.
If you really want to make an 1800 sing for negatives, get MIS spongeless carts for the cyan and magenta positions, a chip resetter, a 4oz bottle of MIS "clear base", two empty 4 oz Nalgene bottles, and two Epson photo black carts. Get a 10ml syringe, and a bottom fill adapter.
Drain the photo black carts into a bottle, then transfer the ink into the other bottle using the 10ml syringe (or a decent graduated cylinder) so you know to within 1/2 ml how much ink you have. Should be around 28ml. Then dilute it to 32% with the clear base.
Thoroughly clean the first bottle. Draw 20ml of the new 32% solution, transfer to the other bottle, and add 43ml of clear base, to make a 10% solution. You've now got about 60ml each of 32% and 10%. Fill the magenta cart with 32%, the cyan cart with 10%.
Replace the cyan and magenta carts with the new ones, and print a CMYK purge pattern until the cyan and magenta turn gray. You've wasted about $2 in ink on the purge, a small price to pay.
Build a curve for that with QTR at the highest resolution. You've now got the same three blacks as the 2400, but drops half the size of those on the 2400, so you're going to clobber the 2400.
If you want to dedicate the 1800 to negatives, pull out all the Epson inks, get a 4oz bottle of MIS 1800 photo black, a 16oz bottle of 1800 glop (glop is the dilutant for MIS photo black, "clear base" is the dilutant for Epson photo black) and new carts for all 8 positions. Now load the machine with 100%, 56%, 32%, 18%, 10%, 5.6%, 3.2%, and 1.8%, and build a QTR curve. That is as good as a negative from an inkjet gets. Build a PhotoShop curve as was outlined by Dan Burkholder. No PDN, no Chart Throb.
As I mentioned, I have no actual experience with the R800.
It is, to all intents and purposes, identical to the 1800.
However, if you desateurate the RGB file and print it in color you will get a negative with almost perfect density range for straight palladium, so you proceed directly to the next stage of establishing your curve, and then printing. And the R1800 prints very smoothly this way.
You've not begun to tap into what an 1800 can do.
