Opportunity is missed by most people because it is dressed in overalls and looks like work. - Thomas Edison
Had a demo of the single unit last week and for the money looks like great results in our CTS shop.I think we will be going forward with the triple soon, although the concept of no integrator is a bit counter to my upbringing.Sent from my iPhone using Tapatalk
Hello TCT and all the members. Regarding water base, discharge and HSA screen exposure. I get to see a lot of printers using these new HSA inks with long print runs and typically those that have high wattage units tend be able to avoid break down more than low wattage units or direct light to screen exposure units. The other key area is the right emulsion for the ink. In terms of the ink's ability to break down the emulsion I look at them like this:Plastisol - not aggressive at all.Water base (totally transparent no opacity inks) - Aggressive rating 2 on a 1-5 scaleDischarge - Aggressive rating 4HSA - Agressive rating 5 - but this can vary from different manufacturersMy thought is we need to look at an individual light ray from the various units and how much strength it has left when it hits the squeegee side of the emulsion. This is the breakdown area usually not the print side. So if you have a 1000 watt vs a 5,000 watt the 1,000 watt will be quite weak after going through the emulsion and mesh compared to the 5,000 watt which will have more punch after the mesh and emulsion it needs to travel through. Give me the strongest light ray possible for Discharge and HSA inks. The more aggressive the ink, the more light energy I want to expose with. Emulsion is not underexposed only, or over exposed only. There is a linear ramp in between and some light sources give decent images and partial exposure. For these inks I want both the best resolution and the best exposure, where Metal Halides are proven to do so.LED's overcome this with proximity and have strength due to the inverse square law. I did some math on another post here that shows that doubling the distance, multiplying the wattage by 4 at each doubling yields comparable wattage at the 40-48" distance for metal halides.so Starlight wattage proximity is 3/4"x2=1.5" multiply by 4 for comparable wattage needed to equal the 3/4" distance exposure, 1.5x2=3" multiply previous wattage by 4, 3x2 = 6" multiply previous wattage equivalent, 6x2=12" multiply previous wattage, 12x2=24 multiply previous wattage, 24x2=48 multiply previous wattage. This is the equivalent wattage needed to match the Starlight wattage at 3/4" So if the 300 watt is at 30" x2 = 60" 300 watts times 4 for the equivalent wattage needed at 60" which is 1200 watts. So replacing in a 1000 watt MH would work, but then also the histogram of the light spikes typically in an LED at one wavelength while the MH 1000 may have a multi spectral bulb that emulsions prefer. Especially dual cures that have diazo (likes 360nm) and SBQ (likes 400-420). So a single spectral bulb even with equivalent exposure may not yield as strong a screen for wb, discharge and especially HSA that a multi spectral with equivalent wattage might yield. It's the quality of the cross linked molecules and what we call handshakes. The stronger the handshake brought about by the sensitizers and what percentage of emulsion molecules have complete handshakes will determine the emulsion strength. Stronger light equals molecule handshakes that forms a stronger exposed screen.My tests on the starlight were very strong. The scattered light doesn't seem to matter much, but could be noticeable on 65-85 lpi tonals with inkjet imagery, wax, no problems.I am old school. I like Metal Halides and probably I am little biased. But nothing has ever come close to exposing as well as my 8k Olec (Douthitt now markets them) for long discharge runs. We printed for Disney back in the day and had one set of screens with Aquasol TS and A&B hardened last to 250,000 pcs on an 8 color discharge and foil print. Once your exposure unit does that for you and you see the results in non stop production, there is no reason to go a different direction. For shorter runs and especially plastisol the new LED's are so much cheaper to operate that it is obviously a benefit. SBQ can be post exposed to gain more strength as well as hardening screens, but these are band aids that can't equal the initial exposure with strong light at the longest time possible without over exposing.
So if the 300 watt is at 30" x2 = 60" 300 watts times 4 for the equivalent wattage needed at 60" which is 1200 watts. So replacing in a 1000 watt MH would work, but then also the histogram of the light spikes typically in an LED at one wavelength while the MH 1000 may have a multi spectral bulb that emulsions prefer. Especially dual cures that have diazo (likes 360nm) and SBQ (likes 400-420).
A single point LED could be the future, but from what I see of the industry (LED, that is,) it will likely be prohibitively expensive for a long time.
If there is an LED system that actually competes, single point, no undercutting, with a 5K or 8K MH unit I'd be interested in checking it out. I'm assuming a sales person would have already bothered me if that were claimed, much less happening in reality.The other thing about the market the way it is, you can get a MH for 500-1000, or even free, depending on the situation. If you do any type of volume, it's easy to justify 300 bucks a year on a new bulb, when you never have to re-shoot a screen or lose a dot because of it.As has been mentioned, it would likely have to be a VERY high wattage LED array, considering efficiencies are similar. Don't take me as being too retro-grouchy, I think it's cool. To me, it's not cutting edge, it's bleeding edge.
North I've been saying that from the start, some company will make a drop in version of LED, sorry Rich, but whatever bulbs you are using someone else might get the same ones and do the drop in.