الضباب .. كتاب التحميض والطبع والتكبير

the fog

Fog is an expression used in the photographic pedal, and it means any density or blackness that covers the negative or positive image, and this density does not represent anything in the subject that was photographed and recorded in the image. The fog may arise from any of the following reasons:

(a) Development fog, which arises from the increase in silver deposition during and because of the developing process.

(b) Chemical fog, which is desirable in solutions in which negative or positive images are treated.

(c) Optical fog, which is caused by unwanted light and has an effect on the sensitive layer.

We will talk about each of these previous types separately.

First - blurry display
In each sensitive layer there is an amount of silver halogen salts that are reduced to metallic silver without being exposed to light, and this is the origin of this unwanted density. The amount of fog depends on the characteristics of the sensitive layer, so the fog increases, for example, with fast-sensitive panchromatic films, and decreases in slow-sensitive films, for example, process films. There are also many other factors that affect the increase in fog, such as increasing the storage period of sensitive materials, increasing the temperature, display temperature, or The activity of the display solution, and the fog can also be reduced if those substances that we know as developer improvers are included in the composition of the solution (refer to p. 85).

Showing haze may increase when using some show solutions that lead to fine particles, especially those that carry silver solvents (refer to page 149). Even though it is assumed then that silver will be deposited from the solution on the overexposed parts of the image, in an amount equal to the overexposed parts, but some of the silver will also be deposited on the unexposed areas, causing a general haze over the entire area of ​​the image. This is noteworthy that there is a method of highlighting in which it depends mainly - to form the image on what is precipitated from the silver of the highlighting solution itself.

Second - Chemical Fog:

Whenever we mentioned, it is that which arises from undesirable reactions resulting from the solutions in which positive films or images are treated, and this type of fog falls under any of the following two groups:

(a) Silver deposit

(b) Chemical stains or colourants

The precipitation of silver may be gray or coloured, depending on how fine the deposit is. And one of the types of this species is what is known as Dichroic Fog, which looks like redness if it is seen in transmitted light, and it tends to be bluish with greenish if it is seen in reflected light.

1- Silver deposition from the show solution: it is formed with that produced by solvent developer solutions that deposit silver on the image, but the deposition of silver in this case is not equal over the entire image area, which has become an Uneven deposit. This occurs as a result of the exposure solution being damaged by mixing with some of the Target Contamination of Developer fixing solution.

2- Precipitation of silver from the fixing solution, and this results from:

(a) Increasing the concentration of silver in a depleted fixing solution.

(b) If the acidity of the fixing solution is less than the correct amount (for example, because part of the safe solution of the fixing solution has mixed with the fixing solution), it is likely that the display process will continue while the image is in the fixing solution, and this will cause silver to precipitate. In order to prevent the occurrence of this type of fog, sufficient care must be taken to prevent mixing of any of the display or fixing solutions, one with the other, and by working to wash the image well with water between the two stages.

As for the second type of haze that results from discolorations or chemical stains, the absent cause is what is called “aerial oxidation” of the exposure solution, which is something that results in increasing the exposure of the image to air during the exposure process, because it is known that the products of exposure are factors Reduction (especially hydroquinone, pyrro, and pyrocatechin) has a distinctive color and has the ability to absorb solutions, so clear spots appear on the image, and its effect on negative images is less bad, as it will only lead to difficulty in estimating the appropriate exposure when printing or enlarging, especially since this discoloration Don't be a regular on all negative space. In fact, some show solutions (such as those bearing Pyro and Metol-Pyro)
It is taken into consideration when using them that they must lead to this coloration. In order to get rid of the problem of pneumatic confirmation, it is necessary to ensure that the sensitive materials are not exposed to much during the sanding process, and that the sanding does not exceed the necessary level, noting that many sensitive papers are highly sensitive to the occurrence of fog of this kind. And bleaching solutions in which the percentage of the preservative is reduced (i.e. sodium sulfite is reduced) would increase the appearance of this defect.

This aerobic oxidation can also occur during the stabilization process if the acidity of the stabilization bath is not sufficiently acidic. And in the use of a medium stop bath, what limits this damage, and that it be an acid stop bath in the case of positive images printed on paper.

A fog of this kind may appear if the temperature of the fixing solution is increased or the degree of its quality is increased, especially if it is from the acid hardening fixer group, and in this case the fog is uneven in area and colors some parts. The picture without the other parts.

Remove haze from photos:

Difficulties will not arise in removing the fog from the image if the fog is regular and not dense in the negative image, as it is easy to remove it if it is a result of a silver deposit, by treating the negative image in a dilute solution of density reducers (such as the aforementioned Farmer's reducer solution). On p. 246).

As for the images printed on paper, it is easy to remove it with a density reduction solution that includes Thiocarbamide Reducer.

As for the chemical fog resulting from oxidation, it can be removed by treating the image in a bleaching solution with permenganate bleacher, refer to pages 247, 248, then reappearing it in a non-staining developer solution that does not lead to fine grains.

Removing fog from sensitive materials that have not been used before:

It is possible for sensitive materials that have obtained a light haze to recover if they float for five minutes in any of the following solutions:
After treating the sensitive raw materials in any of the previous solutions in complete darkness for the prescribed period (five minutes), they are washed with water well and then dried in the dark as well. As a result of the previous treatment, the sensitivity speed is reduced to: or the original sensitivity speed.