Archived posting to the Leica Users Group, 1998/10/10
[Author Prev] [Author Next] [Thread Prev] [Thread Next] [Author Index] [Topic Index] [Home] [Search]At 08:40 PM 09/10/98 EDT, you wrote: > I have just examined by Epson color prints (3 types of paper) > that were sprayed with McDonald PRO-TECTA-COTE & then > left on our patio for 30 days. There is no apparent fading or > other deterioration compared to the unsprayed one that were > stored in an album. You need to do your test so that you are just considering only one effect at a time, like the effect of spraying, or just the effect of UV light, but not both at once. A better test would be to place two prints on the patio side-by-side -- one sprayed and the other unsprayed. A second set of prints can be stored in darkness under similar conditions -- one sprayed and the other unsprayed. > Question - doesn't window glass or any modern type glass also > absorb UV light? If so, then why do my unsprayed prints that > are kept near a closed glass picture window start to fade in 30 > days. Are there other factors besides UV light that are involved? There are several things involved. UV light can affect the print, and so can atmospheric pollution. Keeping the print in a hermetically sealed frame isn't a good idea either. It keeps out things like low level ozone and SO2, but it keeps in chemicals which are produced naturally during print deterioration. Some of these trapped residuals act as catalysts, accelerating the deterioration process. Framed prints must be allowed to "breathe", contrary to what one would expect intuitively, since it also allows the environmental pollutants access to the print. Ctein, in "Post Exposure" (1997) shows an RA-4 print made in 1981 of an early shuttle mission. Sprayed copies of the print have discoloured badly. Unsprayed copies are in good condition. The materials are not the same as those you mentioned, but I would take Ctein's test results as general a caution against spraying. His methods and results are reliable. In a recent Photo Techniques article, which is an excerpt from the book, he shows what happens to B&W RC papers (Agfa multigrade in his tests). His test print has four regions: one is unprotected, a second has selenium toning, a third has Agfa Sistan treatment, and a fourth has both Sistan and selenium treatment. The print was then sealed with a vapor barrier and stored in a dark place for several months, to eliminate the effects of UV. The untreated area shows typical signs of deterioration, with loss of Dmax in the darkest regions. Exhibition Agfa RC prints which he and a colleague have sold are showing noticeable silvering out. Those prints are framed. Apparently Agfa has now addressed this problem, adding inhibitors to the paper to tame the culprit -- the titanium oxide brightener. Your patio tests are not conclusive. You have to leave the prints in their test environments longer, and your tests have to be set up empirically with proper controls. Your paper used for printing may also be a factor, since most computer paper is not acid free or free of alkaline buffers. One of the problems in testing for archival permanence is that you can not accelerate the tests -- say by blasting the print with 100 times as much UV light as it would normally encounter. You can not extrapolate that 1 day of high intensity exposure would equal 100 days of normal exposure. Some of the rate determining steps in the chemical reactions taking place can not be sped up this way. The issue of archival print permanence is a complex one, often containing considerable debate. _ [o] -GH