محاليل المعالجة للأسود والأبيض .. تجهيز المخبر .. كتاب التصوير الضوئي

Black and white processing solutions.. Laboratory preparation.. Selection and use of materials.. Book of photography

Black and white processing solutions

- Black and white developing solutions:
Development solutions usually contain two developers. The base (accelerator) is sodium sulphite (protectant) and the anti-fog: potassium bromide.
The two developers together have a stronger effect than if they were used separately. Phenidone and hydroquinone form a very effective combination.

Developers only work well in a basic solution. The more alkaline the solution, the more active the developer. We choose the nature and concentration of the base according to the desired effect. Sodium carbonate is widely used because it is both cheap and effective, while soda, potassium or caustic potash only serve to prepare very active developers that give great contrast. As for fine-grained developers, which have a less active action, we use a weak base such as borax, for example. It should be noted that the protectant: sodium sulfite is also a silver solubilizer which explains its presence in large quantities in some fine-grained developer formulations. Potassium bromide is the most common anti-fog (or retardant). Benzotriazole is used especially in paper developer formulations because it gives the image a bluish tint. Photographers usually have one film developer and another paper developer. Comprehensive formulations (film and paper) exist but generic developer formulations usually give much better results.

- Developing solutions for negative films:

Some formulas are considered to increase the basic speed of the film and the first formula is formula 76 D or equivalent which gives a speed increase of about 60% for example a film presented by its manufacturer as 100 ASA can then be displayed as a 160 ASA film. In some formulas fine grain is obtained at the expense of speed. As for daily work, a good formula for a fine grain developer is suitable for all medium speed films.

Developing solutions for films and paper
(All weights are in grams)

A sufficient amount of water to complete the volume of the solution to one liter.

D76:
Equal to formulas 11 ID and .B.M 320 and others is considered a high developer.

iD68:
A well-stored phenidone developer gives an increase
in speed from 30 to 60%.

FX3:

A phenidone developer similar to D76 that gives slightly better definition, but reduces contrast.

D766:
A developer that gives less strong contrast; used in cinema films.

D23:

A simple formulation that gives finer grains than D76 solution with weaker contrast prepared with distilled water.

FX5b:

This formulation gives finer and finer grains at the expense of a 30% loss in basic film sensitivity.

D76d:

A solution similar to D76 with better contrast control and maintaining regularity of development. The slight loss in film sensitivity is compensated for by a 35% increase in development time.

- Good clarity developers:

They give greater clarity to contours and fine details but are not fine grain developers. They are best suited to slow films that are more contrasty in nature. The actual speed is 60 to 100% higher than the normal speed: Appearance 1 x F This is a composition
Solution gives as an example:

Genol (Metol) 0.5 g

Sodium sulphite anhydrous 5 g

Sodium carbonate plamanate 2.5 g

Potassium iodide solution 1/1000 - g 5

Add water until the volume of the solution becomes one liter. The solution is discarded after use.

- General development solutions for films and paper:

Most development solutions used for paper have the same main problems but are used in different proportions. In some formulas they give weak contrast and others warm color tones with suitable paper in general every good developer gives correct results with all types and grades of paper. These formulations are not fine grained but can, depending on their base and development time, give more or less high contrast.

Developing solutions for paper and film

(All weights are in grams)

Enough water to make one litre of solution.

D61A:
Appearance General disadvantages: Dilute

(3 + 1 water) for processing in the tank.

D163:
Can be used for films) by dilution (1 +

3 water) but is particularly suitable for enlargement paper diluted with (1 + 1 to 1 + 3 water).

50 DK:
Used without dilution, recommended for very high speed films.

D196:
Appearance with high contrast for X-ray and aerial photography films: without dilution, good storage.

D158:
Suitable especially for slow paper used for contact drawing: dilution 1: 1

ID2 :

Classic Ginol-Hyroquinone formula suitable for very different compounds. In the large tub dilute (5 + 1 water) and in the small tub dilute
with (1 + 2 water) or without dilution at all.

20 ID :
Phenidone-Hydroquinone formula for general use on film and paper. For paper, dilute with (1 + 3 water).

20 ID :

Suitable for all paper: the usual dilution is (1 + 3).

Most manufacturers publish their own formulas. In our selection there are many similarities. Indeed, any black and white film can appear in any of these formulas and some give better results than others. There are also pre-prepared baths whose composition is not published. Since we respect the instructions for use, the results are usually correct.

- Stop bath:

It is not absolutely necessary, especially if the fixative that follows it is acidic, but its advantage lies in the possibility of stopping the development at the desired time in a definitive manner. On the other hand, it protects the fixative from the approach of the reagent with an alkaline solution. A good formula for the stop bath is a simple solution of 2% acetic acid.

- Black and white fixative:
The main problem with the fixative bath is the solvent that makes the silver halogens that have not been converted to silver metal during development soluble in water. Sodium hyposulfite (sodium persulfite) has been used since the beginning of photography for this purpose, but it has been replaced nowadays by ammonium hyposulfite, which works more quickly: this is the problem of fast fixatives. When we use a fixative with paper, care must be taken not to extend the fixation time, which leads to blackening of the image.

A little acid must be added to the fixative in order to quickly stop the action of the basic solution coming from the developer. A mixture of sodium sulfite and sodium bisulfite is usually used for this purpose. An acid stronger than this will precipitate sulfur in the colloidal state.

Most stabilizers also contain a hardening agent to strengthen the gelatin. A hardening agent is recommended for films and papers as well, except for glossy, non-plastic papers that are polished on a chrome plate during drying. The hardener most commonly used is potassium alum.

For general use, we can use the same fixing bath formula (sometimes with different dilutions) for films and papers, but we use separate baths. The formulas are varied because the concentration in hyposulfite cannot be determined. The following table indicates different formulas:

Fixing solution compositions (all weights are in grams and volumes in milliliters)

Sufficient amount of water to make up to one liter of solution.

F1:
A simple acidic fixative that is quickly neutralized by the appearance of the effect.

F2:
This fixative hardens, making it more resistant to changes in pH.

F3:
A hardening acidic fixative.

F4 :

Rapid acid fixer and hardener

The concentration of hyposulfite cannot be specified and can vary from one formulation to another.

- Single dips:

The idea was to combine the developer and fixer in one solution to process the films. The single dip is simple and since the processing time is predetermined there is no risk of error in the duration. The disadvantages are an increase in graininess
and the inability to change the processing time to suit a particular subject or according to personal taste. In addition, the compound does not harden which requires a separate hardener but this is contrary to the principle of the single dip.

- Fixing:

Fixing is used with special papers in which the developer is mixed with the light-sensitive compound. The developer is then a simple basic solution that can carry out the work of converting the developer. The images are then fixed instead of being fixed. With materials such as ammonium sulfocyanate or thioglycolic acid. Washing is not necessary so we can get images within 30 seconds but their storage is limited.