testing of inkjet ctp
As environmental issues push forward I believe inkjet ctp will continue to emerge as a dominant plate technology. I have been following this technology for more than 12 years dating back to Graphic Science Corporation when they did a demo using laser inkjet film positives & positive acting metal plates to run a CMYK job at a trade show. Inkjet entered the picture with Pisces (JetPlate) which is now gone out of business. I have spoken to many users of JetPlate systems who were very happy with the system. Then Glunz-Jensen iCTP came about, then TechNova's Polijet and MetiJet, then VIM Technologies JT-Direct Plates (polyester & metal), Dotworks, and the newest is Kimoto's Kimotosetter 525 which uses UV inkjet technology to image the plates.
I don't work for any of these companies, and I am not a dealer. I do own my own print shop, been in the business for 20+ years, and buy and sell used equipment, so I have talked to lots of printer, dealers, engineers, manufacturers, etc. What I will tell you is I believe the technology is here to stay, and that I believe all the systems are capable of making quality plates, each system having its pluses and minuses.
The Glunz-Jensen and Kimoto 525 are on the high end price wise at around $30K each. The Dotworks, Polijet, and JT-Direct are all very similar but these 3 all use off the shelf high end Epson Stylus Pro series inkjet printers using OEM inks to image the plates. Each brand of plate material will obviously have different characteristics but I believe they will all perform relatively the same from the tests I have done in my own shop.
What G/J doesn't want you to know is that you can buy the Epson 3880 for around $1295 new, buy a rip from $495, buy the plate material from stuff4print.com and use a laminator to cure the plates. I haven't tested the $495 rip but I am told it does the job well, but the Wasatch SP RIP has all the tools you need to make very high quality inkjet plates.
I'm not sold on the MetiJet plates yet as to my understanding the plates have to be exposed on a plate burner once imaged (positive acting plates - the ink block the light) & then developed so this isn't much different than imaging film and burning plates anyway as you still have the same steps.
The purpose of CTP is to lower plates cost, production time and obtain a higher quality plate. All the above fit this concept except the MetiJet in my opinion, and if you look at the imaging specs they all use the same Epson imaging head/resolution of 2880 x 1440 dpi (including G/J and Jetplate). So in theory they are all capable of putting down the same image on the plate. Any difference would come down to the plate characteristics and the RIP capability. Wasatch definitely has the high end covered on the RIP. The polyester plates are available in several thicknesses, & by going thicker with the plates stretch is not an issue. Registration is perfect also with the Epson printers.
My tests have shown excellent results for an investment of less than $100 with my used Epson 7600 Ultrachrome printer I picked up. Same imaging head resolution and Ultrachrome Pigment Inks (just not the K3 version). Technova specs on their website polijet.com states it is 4 color capable and runs of 10K or more. Most small to medium printers now average run is within that range.
Basically to sum it up, if you have a wide format printer that uses pigment ink (not dye ink versions) get you some sample plates from each manufacturer, download a RIP demo and test each manufacturers plates and form your own opinions. If you don't have a baking unit or laminator let the plates sit for 24-48 for testing purposes to let the plates dry thoroughly before doing your test runs. If your happy with the results then invest in the RIP and laminator or baking unit.
Baking the plates is key with the pigment inks to make the system work.
Hope this give you some unbiased insight to inkjet CTP...
