to my knowledge,strong salt solutions were used by the pioneers of photography in the early 1800s ti fix silver emulsions with limited success prior to the invention of hypo but there is no real substitute to a properly fixed emulsion.
It's just one of those things I heard somewhere:
Wasn't one of the first methods of fixing paper and negatives was by using saltwater? Does anyone have any clue what kind of concentrations you'd need and if it would be possible to fix, say a roll of Tri-X in it?
If not, is there any other household stuff that could serve as fixer? Just curious..
Actually, I would contest this. From my own experiments and also hinted in Fox Talbot's notebooks, I believe there is a salt/silver nitrate concentration that produces a very permanent image. Hitting this is very difficult to achieve. However, after many experiments I managed this only once, but unfortunately and due to my crap notes and data recording ability I can't quantify what that combination is.
It's just one of those things I heard somewhere:
Wasn't one of the first methods of fixing paper and negatives was by using saltwater? Does anyone have any clue what kind of concentrations you'd need and if it would be possible to fix, say a roll of Tri-X in it?
If not, is there any other household stuff that could serve as fixer? Just curious..
Necro posting, boys!
I have yet to see a serious, conclusive test in a laboratory setting that shows that NaCl can fix negatives permanently.
Surely if it were to work just as successfully as proper fixer then considering how long the idea has existed someone by now would have done it so long ago that he could point to say 20 years or more of success.
Can you clarify this claim? Was it tested by re-immersing in developer? Thanks.Multigrade appears to fix reliably in 6-8 hours at room temperatures (18C-22C)
In the early days of photography, very strong salt water solutions have been tried as fixer but, it doesn't really work. What are the invention of sodium thiosulfate, I'm going to working fixer had been found to my knowledge, there are no other household solutions that are a working alternative.It's just one of those things I heard somewhere:
Wasn't one of the first methods of fixing paper and negatives was by using saltwater? Does anyone have any clue what kind of concentrations you'd need and if it would be possible to fix, say a roll of Tri-X in it?
If not, is there any other household stuff that could serve as fixer? Just curious..
Not by re-developing, but by re-exposing in full sun with a mask for six hours. No variation between masked and non-masked areas were visible.Can you clarify this claim? Was it tested by re-immersing in developer? Thanks.
I will counter your claim with the extensive work by better people than I, as documented here:In the early days of photography, very strong salt water solutions have been tried as fixer but, it doesn't really work. What are the invention of sodium thiosulfate, I'm going to working fixer had been found to my knowledge, there are no other household solutions that are a working alternative.
So, what is going on in the chemistry? We have AgBr2 in the unexposed areas of the film. Add to this an excess of chloride ions, and they convert the AgBr2 to AgCl2. The solubility of AgCl2 is about 5 times that of AgBr2, but still not very high. Given enough time, and enough fluid, it will dissolve, or at least enough will for our purposes.
There is no AgBr2 to be found in film emulsion, you probably meant AgBr. What an excess of Chloride ions does: it creates higher level complexes of the (AgCln)(n+1)- kind, which may be both tight enough to remain stable in the presence of Br- and water soluble. Note, that this will hold to a much lower degree in the presence of iodide ions, therefore you "cleared" film may not at all be free of residual Silver Iodide.So, what is going on in the chemistry? We have AgBr2 in the unexposed areas of the film. Add to this an excess of chloride ions, and they convert the AgBr2 to AgCl2. The solubility of AgCl2 is about 5 times that of AgBr2, but still not very high. Given enough time, and enough fluid, it will dissolve, or at least enough will for our purposes. Fortunately the actual amount of AgBr2 in film is not very much, and 600ml of fixer fluid is a lot of salt water. This also explains the speeding up of the process by heating.
By comparison, the solubility of Ag2SO4 is around 1000 times higher - which is why a sulphate fixer works so much faster.
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