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screen printing => Screen Making => Topic started by: StuJohnston on September 12, 2011, 11:23:47 AM
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I have tried to read all of the threads that may have information about this topic. Unfortunately, the most detailed explanation that I have found is that cap film is better for detail than direct emulsion. I have also read elsewhere that you can stack cap film for a thicker stencil. From what I have read here and elsewhere is that indirect films are on their way out.
Here is my take on the subject. I have only used direct emulsion so far, so I can't compare the methods side by side, but I can give my experiences with emulsion. I have not had any problems with detail when using direct emulsion. I have yet to try this, but Kiwo claims that it's poly plus HWR can achieve an 88lpi stencil! Maybe that's low compared to cap film, I don't know. I just got phantasm cs for illustrator and I will try to test this out with the halftone function. My main issue with cap film is expense, I haven't quite settled on an emulsion so it's hard to tell exactly how much I am spending per screen, but I am certain that it doesn't compare to the price of cap film. After looking a little further into this, it looks like the best I could hope for with WB inks is, 'some water resistance.'
When I got my vac frame, it was made to be part of a platemaking system. Which meant that it wouldn't accomodate a screen frame. For a moment I considered indirect film because I could just toss that into the vac frame without a second thought then apply to screen. Then I read up on it and found out the truth of the matter. IT looked like it would cost me roughly $10 per screen and the process to get the stencil to the mesh seems more complicated than even direct emulsion. A big issue was that it wouldn't do waterbased either. I have since started to turn the platemaker into a frame suitable for holding a screen frame so I am not as interested in indirect film, but still curious.
What I would like to know is what you guys think about the various methods of making stencils. I feel like there must be something to cap film that I don't see, so I am open to suggestion. I mainly use air dry, mild solvent inks, so lack of WB capability wouldn't be the end of the world.
A related issue is the comparison of methods of sensitizing in direct emulsion. I have some qx-1 that claims to be dual cure, yet it lasts a year and exposes in about 10% of the time that my Kiwo poly plus dual cure emulsions do. Which leads me to believe that it is actually photopolymer. Am I wrong or is ulano trying to pull a fast one?
I just had a brain flash, why not put some unprinted sticker material on each container to add up the screens per coating session! Thankfully I have quart containers that I empty the gallons into so I should be able to start fresh on ounces per screen and then cost per screen.
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First off, figure cost all you want, but be assured that micron for micron, cap film is more expensive. It is, after all, essentially emulsion made in a convenient shape, and you are paying for that convenience and eom consistency.
As for your dual cure, yes, it's a photopolymer with diazo as well.
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First off, figure cost all you want, but be assured that micron for micron, cap film is more expensive. It is, after all, essentially emulsion made in a convenient shape, and you are paying for that convenience and eom consistency.
As for your dual cure, yes, it's a photopolymer with diazo as well.
I just find it strange that the qx-1 basically behaves like a pure photopolymer. At least to the best of my understanding.
I was thinking that one of the major advantages to cap film is that it is much less susceptible to user error. Thankfully, I am the only person in the shop and therefore the main screen coater and I am confident that I am getting consistent results. I may see if I can get some samples later on, but for now I am pretty happy with my current set up.
I just thought of another question. As you mention, one of the advantages of cap film is that the EOM can be determined pretty well by the thickness of the film. Does the cap film come through to the squeegee side? Does this effect the Rz value? For that matter, does Rz matter on the squeegee side?
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The only thing we use cap film for anymore is High Density and a few specialty inks. The stuff is stupid expensive on a per screen rate and not any easier to apply than direct.
You can adjust your EOM with coating techniques and different solids content emulsion to achieve any thickness you desire these days.
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Oh boy Stu, I think I have some answers to your queries. We've used both cap film and direct emulsion in the past. We still use cap film in a pinch. I don't care what anybody tells you, cap film is the fastest way to get from reclaim to stencil ready to shoot.
Murakami Aquasol HV is our direct. Ulano EZ-Film (roughly 45micron I believe) and Chromaline Magnacure 38micron are our cap films. The Aquasol and EZ are pure photopolmer, the Chroma is a dual cure.
Unfortunately, the most detailed explanation that I have found is that cap film is better for detail than direct emulsion.
It can be. The main reason is that cap film is retarded perfect (when applied correctly) across the entire stencil area. Even with excellent coating technique and proper face coating it is difficult to duplicate this when coating by hand. That said, you can get really close using direct emulsion with skill. It's this consistency and then the amazing RZ value (smoothness) on the print side that give cap film a leg-up on fine detail. Cap film yields what I would call a "theoretically perfect" stencil in that the maximum amount of EOM is on the print side and the print side surface has the lowest possible RZ value. This combo can provide most excellent detail.
However....
Does the cap film come through to the squeegee side? Does this effect the Rz value? For that matter, does Rz matter on the squeegee side?
It inherently has to just a little in order to grab onto the mesh and stay there through resolution and then on-press for entire print run. While having just the minimum emulsion on the squeegee side and the max on the print side is beneficial to holding detail on the stencil, when it's time to actually print it generates friction on the squeegee blade which creates chatter (which then gives you an un-even print), uneccesary wear on the mesh, increased pigment staining and added wear on your printer or your machine.
Now, there are two methods for applying capillary film. The more common is to either roll it on or, using a backer board, draw it up into a wetted screen. This method is fast and can be executed with wet screens, immediately after reclaim but it will exacerbate the above problems. The other method involves degreasing and drying the "blank" screen as you normally would for direct emulsion coating and then applying the cap film by "printing" a bead of copacetic emulsion onto the screen and adhering the film that way. This method, presumably, would put some EOM up on the squeegee side and eliminate the above issue to some degree. I wouldn't know though because at this point you're not getting much advantage out of using cap over direct so I don't incorporate the technique.
My favorite stencils are ones consistently coated with direct emulsion and then face coated on both sides. While a cap film stencil may be technically capable of holding more detail at exposure, this direct emulsion screen is going to excel on-press. RZ on the squeegee side does make a difference. If you want to feel/see how much, try the face coating method above using an emulsion formulated for low-RZ like Kiwo Poly Plus Z.
why not put some unprinted sticker material on each container to add up the screens per coating session!
I've done this and while Andy is right on the money when he says that cap costs more "micron for micron", I've found that Ulano's EZ-Film is cheaper than our average cost per direct coated screen.
You had a bunch o' questions and to sum up my thoughts on stencils generally, I'm in the "one emulsion for them all, coat it all direct" camp these days and I do have employees to wrangle. My main reasons for this are for the flexibility you get out of direct and the fact that we will be printing a lot of wb/discharge. However, the right shop will see a huge advantage in going with cap film, especially a cost-effective one like the EZ.
This argument, just like the shur-loc panels v. bolt mesh one boils down to this- who would you like to pay to do the labor of coating your emulsion?
A related issue is the comparison of methods of sensitizing in direct emulsion. I have some qx-1 that claims to be dual cure, yet it lasts a year and exposes in about 10% of the time that my Kiwo poly plus dual cure emulsions do. Which leads me to believe that it is actually photopolymer. Am I wrong or is ulano trying to pull a fast one?
I surely need someone to qualify this statement but I believe they are all technically "dual cures" with some containing diazo and some omitting it. If you threw diazo into your QX-1 it would have a shelf life and expose slower.
Let me know how you like Phantasm CS, I'm very interested in that program but have not had time to give it a good whirl. Those phantasm software folks appear to be actually considering us printers and, *gasp*, even accommodating us as a trade. Just a tiny little snowflake in hell they seem.
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A related issue is the comparison of methods of sensitizing in direct emulsion. I have some qx-1 that claims to be dual cure, yet it lasts a year and exposes in about 10% of the time that my Kiwo poly plus dual cure emulsions do. Which leads me to believe that it is actually photopolymer. Am I wrong or is ulano trying to pull a fast one?
I surely need someone to qualify this statement but I believe they are all technically "dual cures" with some containing diazo and some omitting it. If you threw diazo into your QX-1 it would have a shelf life and expose slower.
Oh boy, and sorry guys I was a part of making this more difficult (past articles and more).
There are currently three basic sensitizing “items” in emulsions.
Diazo - The icky green/brown powder it is sensitive to light when dry and likes to bond with the polymers in emulsions, there is more to this but it makes little difference to the end user.
SBQs - used as a generic term - It is actually describing a family of light reactive chemicals that are “attached” to the emulsion polymers and then when exposed to light bond to themselves - and like above the specifics make little difference to the end user. If you want to know more you can look it up, there is a fascinating “full on” geeky story about this originating from Japan.
Photopolymers - also used as a generic term - This is the one most missed, and it is because it is information irrelevant to the end user. The “photopolymers” here are most often associated with the “common” dual-cure, the one that requires the diazo. Because the term “dual cure” was in use and associated with particular properties with the diazo and “photopolymer” mixture the new SBQ and “photopolymer” combination was labeled with that tag “dual cure” only to confuse the end user even more.
There were six basic combinations of the above three photo-reactive items so there were actually SIX basic types of emulsions one type the “photopolymer” alone is no longer on the market.
Gives us:
1.Diazo (alone)
2. Diazo/“photopolymer” (the common and much beloved dual-cure)
3. Diazo/SBQ a relatively rare type of emulsion.
4. SBQ (alone) The most common and popular emulsion type.
5. SBQ/“photopolymer” (the new dual-sensitized emulsions)
6. “photopolymer” (alone) - I have been told this product is no longer available, but I do not keep in contact with every emulsion maker out there.
Who knows... ::) in three months or less there could be a “tri-cure” emulsion that could knock your socks off, or a new sensitizing chemical altogether and that would be great.
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My favorite stencils are ones consistently coated with direct emulsion and then face coated on both sides. While a cap film stencil may be technically capable of holding more detail at exposure, this direct emulsion screen is going to excel on-press. RZ on the squeegee side does make a difference. If you want to feel/see how much, try the face coating method above using an emulsion formulated for low-RZ like Kiwo Poly Plus Z.
I like your line of introduction here, but don’t you think that face coating is a fairly advanced technique? And FCing the front and back for both gasket smoothness and squeegee travel surface is a bit much all in one serving - from a newbie standpoint?
I am looking at this more from information overload than any real disagreement.
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I love information overload, it's one of the main reasons I read these forums, too much for the novice I'm sure but I do enjoy reading your posts and Zoo's. ;D
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I love information overload, it's one of the main reasons I read these forums, too much for the novice I'm sure but I do enjoy reading your posts and Zoo's. ;D
Because of what I do for a living I tend to take the “training wheels” approach to things, little at a time in measured amounts in a specific direction. - at least most of the time.
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My favorite stencils are ones consistently coated with direct emulsion and then face coated on both sides. While a cap film stencil may be technically capable of holding more detail at exposure, this direct emulsion screen is going to excel on-press. RZ on the squeegee side does make a difference. If you want to feel/see how much, try the face coating method above using an emulsion formulated for low-RZ like Kiwo Poly Plus Z.
I like your line of introduction here, but don’t you think that face coating is a fairly advanced technique? And FCing the front and back for both gasket smoothness and squeegee travel surface is a bit much all in one serving - from a newbie standpoint?
I am looking at this more from information overload than any real disagreement.
Yes the face coat is quite interesting and makes very good sense. A better squeegee gasket will help reduce friction and squeegee drag. Less heat means smoother ink and faster print speeds for longer periods of time. Those few pennies applied in the screen room helped make money by improving the process. Yeah this tech talk can go over the heads of some but when you get into advanced printing techniques, it's stuff like this that helps you squeeze out a few more dozen per shift.
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Let me know how you like Phantasm CS, I'm very interested in that program but have not had time to give it a good whirl. Those phantasm software folks appear to be actually considering us printers and, *gasp*, even accommodating us as a trade. Just a tiny little snowflake in hell they seem.
Thanks for the awesome post! Phantasm CS is really neat, but I don't have any complaints about the color system that illy has native. So much of the functionality is lost on me. The halftone feature is pretty cool, though I seem to recall seeing a little bit of live trace style artifacts when zoomed in really close. The seps thing isn't terribly easy to figure out. I tried it on a simple three color job and I couldn't figure out how to actually seperate it. I ended up just doing ut manually. I only have a few more days on the trial so I had better get that figured out! There are a few other things that I would like to figure out, but seven days may not be enough.
I really appreciate all of the comments btw. This forum is definitely unique, so far as I have experienced, in that there are not only people that know what they are talking about, but are actually likely to share their knowledge!
EDIT: I totally forgot about face coating. It might be complicated for a beginner, but if you are decently competent with a 2+2 coating, it shouldn't be that hard. It's really funny to me because I had tried the face coat method with some exposure tests, thought, "Wow, that is nice and sharp." Then never used it on a screen after.
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My favorite stencils are ones consistently coated with direct emulsion and then face coated on both sides. While a cap film stencil may be technically capable of holding more detail at exposure, this direct emulsion screen is going to excel on-press. RZ on the squeegee side does make a difference. If you want to feel/see how much, try the face coating method above using an emulsion formulated for low-RZ like Kiwo Poly Plus Z.
I like your line of introduction here, but don’t you think that face coating is a fairly advanced technique? And FCing the front and back for both gasket smoothness and squeegee travel surface is a bit much all in one serving - from a newbie standpoint?
I am looking at this more from information overload than any real disagreement.
Yes, agreed that the application of the technique is a bit advanced but it illustrates my point about what the "perfect stencil" means and is conceptually pretty simple - you fill in the valleys and build a smooth surface.
Stencil technique can be heavy duty for sure but the end goal is pretty clear and easy to grasp, the rest of the info makes up a toolbox to get there.
I think the "glisten" method (which you coined Doug?), applied correctly, gets close enough without needing face coats for most screens. I don't have my crew do every screen this way but critical, high mesh count screens as well as lower mesh count screens for long runs get face coated by me. If I recall correctly, I threw a little hissy fit the first time I tried to face coat and it certainly takes some patience to do it right. I would introduce it after comfort is established with the glisten coating method.
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And regarding those 6 emulsions types, throw me some examples here. What is Aquasol HV for instance? And then what would it be if you sensitized it with diazo?
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Anyone got a link to the "glisten method" handy. I know I've read about it many times and I'm sure I've read an article but going a year without actually doing it doesn't really help much.
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Anyone got a link to the "glisten method" handy. I know I've read about it many times and I'm sure I've read an article but going a year without actually doing it doesn't really help much.
Right on the Home Page
Coating Screens for Maximun Effect.
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Funny, I read that just the other day.
In my defense I do have a cold and I'm not thinking very clearly. :)
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This thread reminded me that I bought 50 sheets of ulano's EZ film about 6 months ago and only tried a few sheets. So I went out there and found the remaining 48 sheets and spent an hour applying about 40 screens worth of film. We even exposed a few and they work perfectly. I wish they were cheaper, because they sure are quick and easy to use. Kind of makes me want to revisit the use of cap film, although I know the answer already.
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I have a ways to get to this point, but what about building the cost of the cap film into the job?
I had a nutty idea, what about making your own cap film? basically putting a sheet of material (that doesn't stick to emulsion) down with some sort of dams on each side then pour the emulsion in. The viscosity should take care of the flatness. Though it boils down to how much you would spend doing this compared to buying the stuff out right.
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So, sounds like you just used up the convenience with a whole bunch of work just making each sheet (don't forget that perfectly flat, square, and level work table you built)
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And regarding those 6 emulsions types, throw me some examples here. What is Aquasol HV for instance? And then what would it be if you sensitized it with diazo?
I am not familiar with that emulsion so I have some other examples.
QTX - SBQ
POLYCOL ONE-COAT (with the added Diazo) - SBQ/Diazo
QX-1 - SBQ/Photo-Polymer
KIWOCOL 300 - WR - Diazo
POLY-PLUS SWR - Diazo/Photo-Polymer
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Thanks Doug. Someday I'll take a minute and nerd-out on the sbq thing. Emulsions are one of those categories where I don't get deep into the nuts and bolts.