DE2049528C3 - Fast developer solution for light-sensitive silver halide materials - Google Patents

Description

The invention relates to a rapid developing solution comprising a developing agent, preservative and contains an alkali, for silver halide light-sensitive materials which anodically oxidize one Aluminum support included.

In particular, the invention relates to a high-speed developing solution for a silver halide light-sensitive material, which consists of an aluminum support with a fine porous oxide layer formed thereon by anodization, the oxide layer a photosensitive or photosensitive silver halide compound in the fine pores wearing.

Aluminum is a relatively cheap material and has advantages such as good machinability due to the excellent rollability and ductility, low specific weight, beautiful white Color and high corrosion resistance due to the formation of a stable oxide film through conversion with the oxygen in the air. As a result, the demand for aluminum has recently increased strong too. Although aluminum has such properties

possesses, on the other hand, it has a low Ilartc and easily gets scratches and cracks.

The oxide film naturally formed on the surface of the aluminum has a thickness of 5 × 10 ⁵ mm to 1.5 · ⁴ mm, and therefore corrosion sometimes occurs.

Fs is known to overcome the foregoing Disadvantages of oxidizing aluminum anodically

/ ui IIcrmolding of a light-sensitive aluminum panel. preferably an aluminum plate with a content of 0.05 to 1 percent by weight Kupier, «Lic is treated by fashionable oxidation the oxidized plate in an aqueous solution of silver nitral and immersed in a hydrophilic colloid or dice aqueous solution applied to it

Ihc Formation of the Silver Halide, »· .Lr, Puren wifd carried out in practice by inserting the plate into the Silbcrnitmtlctsunii. / ■ » ^ Wt application of ^ ultrasonic waves (29 Ml /). is immersed.

Examples of light-sensitive, fashionably oxidized aluminum plates known to date are made of oils

ÄSllte 21 15 339, 21 26 017 and 21 66 119

^{In the case of} light-sensitive or photosensitive aluminum plates, one of the most important properties is the optical density (degree of blackening) of the image formed during treatment in the following usual way:

Exposure 'development' fixation - water washes - intensification - water washing

A developer solution for light-sensitive material that uses aluminum as a support Contains anodic oxidation is from the US patent 32 75 440 known. These aluminum photosensitive plates can have a sufficient image density obtained using conventional photographic developer tools. However, when applying This developer solution requires a development time of 1 to 5 minutes to complete the Exposure amount to get suitable maximum ßilddichlc, and even if the pH of this Developer solutions is increased, the Im development time. not be abbreviated.

The object of the invention is therefore to create a light-sensitive door developer solution Silver halide materials. which have an anodized aluminum carrier, which means the duration of development can be substantially shortened in an advantageous manner.

This object is achieved by the invention a rapid development solution that is a development agent Contains preservatives and an alkali, for silver halide photosensitive materials. which contain an anodized aluminum support, and which is characterized by it. that they additionally contains the following four components known to developers in combination, namely an alkali thiosulphate, an alkali thiocyanate, 1-phenyl-5-mcrcaplotetrazole and ethylenediamine, the molar ratio of the alkali thiosulfate to the alkali thiocyanate in the Range from 1: 1 to 2: 1 and the molar ratio of l-phenyl-5-mercaptotetrazol / u the ethylenediamine im Range from 1: 1 to 1 2.

When using the fast developing solution according to the invention, the developing time can be reduced to 2 seconds shortened, with good development results can be achieved on the other hand, using a conventional Fnlwi. clerical solution and one Development time of only. ' Seconds no picture developed

Typical. · Composition of the developer solutions according to the invention are as follows.

Anhydrous

Nitrium sulfite

Hydroquinone

1-phenyl-

3-pyra / olulon

Vjriii render
Her ei h Especially
more preferred
lter t 'Il Il ig » ta) SO to U) (I. S'i «ns I.» II IS to IO
I to ' 'his U)

Varying
Heroic))

(S)

l especially

biivor / uijlcr

IJcreicli

(B)

Sodium·

thiosulfflt · 5 U ₂ O

Coolium bromide

Potash thiocyanate

Sodium hydroxide

Ethylenediamine

(85 percent by weight)

l-I'henyl-5-mereapi.o-

tetrazole

15 to 100

40 to 60

I to

5 to

10 to

0.1 to

50
30th

I to

IO to

15 to

0.01 to

2
20th
25th

0.5 to 3

The above mass is dissolved in 1 J water.

The developing agent can optionally be replaced by MeU) I and /. Numerous other known analogous compounds, as in Mees, The theory of the photographic process, pp. 536 to 618, Macmillan and SK ikuchi et al. Kagaku Shashin Binran.Iid. 2, pp. 2 to 7 and 115 to 118, December 20, 1959, Maruzen Co., Ltd., except hydroquinone, pyrazone (1-phenyl-3-pyrazolidone). Anhydrous sodium sulfite, pyrosulfite and the like can be used as preservatives (antioxidants).

The anti-fogging agent can be made from potassium bilide and similar common known compounds.

In bulk, sodium hydroxide as well as potassium hydroxide, lithium hydroxide and the like can be used as alkali Materials are used.

The importance of adding 0.01 to 3 g of ethylenediamine lies in increasing the density in addition to increasing the suitability for development on the 5 times.

Sodium thiosullal and Kulium thiucyanat in the approach can also easily be achieved by means of potassium thiosulfal and sodium thiocyanate in each case in an equimolar manner Quantity to be replaced.

As stated above, a sufficient blackening can be obtained within a very short development time by using the developing solution according to the invention, the success only being based on the moiar ratio between the alkali salt of thiosulfuric acid. for example the sodium, potassium salt and the like, and the alkali salt of thiocyanate, for example sodium, potassium salt and the like, and the ethylcinediamine and the 1-phenyl-5-mercaptotetrazole, if the molar ratio between sodium thiosulfate · 5H ₂ O and potassium thiocyanate is between 1: 1 and 2: 1 and that between l-l'hen> l -> - mercaptotetraz.ol and ethylenediamine in the range of 1: 1 to 12, the ability to develop necks can be effective can be obtained.

For example, at 7ugahe of sodium thiosulphate no picture developed above the above limits, and the addition of the same below these Borders cause fogging.

The influence of the development on the image density is obviously dependent on the silver halide crystal formed is very small and the silver salt of the unexposed part during development in the Sodium thiosulfate and potassium thiocyanate is dissolved and the formed silver ions again to Si'bcrtciiche "

reduce! become, the »η the reducing nucleus» m Adhere uildtcil.

The Scnncllenlwicklerlüsung according to the invention shows no variations in the required development time at temperatures in the range from 15 to 3O ⁰ C and provides no fog in the unexposed portions within 2 seconds.

After development, the plate is fixed with a standard Hypofixic solution and can then be used in a gold-noride-tinting mixture for the formation of an excellent image with an even higher quality Contrast and even higher density can be immersed.

example 1

A photosensitive aluminum plate was made in the following manner:
A corrosion-resistant aluminum alloy plate containing 0.20% copper was anodized in an electrolyte solution containing 3% potassium oxalate and 5% oxalic acid using the aluminum alloy plate as an anode with a direct current of 2 Vdm ⁷ for a period of 30 minutes while the temperature of the solution was maintained at 6O ⁰ C. After washing and drying, the plate was aul of the plate by the oxidation of formed pores of the aluminum oxide layer with a solution of silver nitrate of the following composition by applying the silver nitrate solution on the plate and subsequent drying of the board impregnated :

Silver silver 300 g

Gelatin 5 g

Distilled water to 11

The pores thus impregnated were further coated with a solution of a halide of the following Composition by applying the solution to the plate impregnated to form the silver halide map in it.

Potassium bromide 100 g

Prussian shot 25 g

Water to 11

This was followed by washing with water for 30 seconds and then drying.
After the exposure, the photosensitive aluminum plate was developed with the following developer solutions A, B, C or D for 5 minutes and then stabilized with an acidic hypo-fixative solution.

Developer solution A

The following constituents were dissolved in 1 l of water, and developer solution A was obtained:

Anhydrous sodium sulfite 120 g

Hydroquinone 30 g

I-phenyl-3-pyrazolidone 2.1 g

Sodium thiosulfate pentahydrate 50 g

Potassium thiocyanate 13 g

Sodium hydroxide 20 g

Ethylenediamine 03 g

! -Pher! Y! -5-msrcaptoie! RaiO! II) g

Knlwicklcrlfeunv I?

Like development solution Λ. however under Wegliissunp of Alhylenediamine.

_{r r} ,

Development Solution C

Like developer solution Λ, but omitting l-i'hcnyl-S-mercnplotetnizol.

Developer solution D

Like developer solution A, but omitted of ethylenediamine and l-pncnyl-S-mercaptotctrazole.

The maximum density, the amount of developed Silver in the silver image obtained in this way and the development efficiency (amount of developed! Silver / amount of silver applied |%]) are given in the table below.

Developer Maximum Amount of Development solution Blackness developed effective tongue Silver, {g / m'l (%) A. 0.93 0.380 64.5 Is 0.80 0.375 63.6 Γ 0.64 0.42 7 !, 2 D. 0.64 0.41 69.5

jo

_25th

As can be seen from this table, the Eni winder solution shows according to the invention the highest value of the maximum blackening of all Eni winding solutions; it is thus an excellent developer solution to call. If, on the other hand, a developer solution free of ethylenediamine and / or l-phenyl-5-mercaptotctrazole is used the maximum darkness extremely. In particular, a developer solution shows free of 1-phenyl-5-mercaptotetrazole a very low maximum density, although it has a very high development efficiency indicates. This proves the fact that a photosensitive aluminum plate is opposite to one another common light-sensitive silver halide material behaves completely differently. In addition, is likely the difference in maximum blackening, among other things, also on the difference in agglomeration of the developed silver. In view of this, it is found that the developing solution according to the invention for developing photosensitive aluminum plates is. what happens on the basis of the knowledge of the behavior of the individual parts of the country; the usual light-sensitive silver halide materials do not expect it

Example 2 "

A photosensitive aluminum plate was used in in the same way as indicated in Example I, prepared. The light-sensitive one was not exposed to the light Aluminum plate with the following developer solutions A. B, C and D developed for 3 seconds and then with an acidic !! ypofixicrlftsun]. ' fixed

Anhydrous N..lriumiuini 120 g

Hydroquinone - * ^tJ I?

M'hcnylO-pyniznlidon M ß

N it I ri u in I h i os 111 Γπΐ- Pc π I π liy cJ r: it 5 () t!

KaliunUhiocynniil 13 g

Sodium hydroxide 20 g

Ethylenediamine 0.3 µ

l-Phcnyl-S-merciipiolclra / ol l, üg

Development Solution B

How developing solution A.jedorh under omissionunj! of sodium thiosulfite peniiihvdrat.

Clearance solution C

Like developer solution A, but under toilet glass of potassium thiocyanal,

Developer solution I)

Like developer solution A, but omitting sodium thiosullate pentilhydrate and potassium _thinocyanate

{) j _e maximum density, the sensitivity and the development efficiency (%: amount of silver entwickellern the maximum density / ^ e Men to Überzugssilbei) of the thus obtained Silbcrbilder are shown in the table below.

Knt- Maximum Emp Amount of Iintwkk- wick- Blackness find develop lung lung tongue opportunity tem silver effectiveness solution the maximum Blackening (g / m ^J ) (%) A. 1.02 1 0.49 70 B. 0.88 1/2 0.56 80 C. 0.90 1/2 0.49 70 D. 0, ' 1/20 0.28 40

development \

The following components were added to I 1 water solved and the developer result was obtained

05 The results of Table above show that the developing solution according to the invention gave the highest value of the maximum density of all Entwickierlösungen, whereby the superiority of the developing solution of the invention can be clearly exhibited invention. On the other hand, the developing solutions which did not contain sodium thiosulfate pentahydrate or potassium thiocyanate, or neither, showed a remarkable decrease in maximum density or sensitivity (speed of development). In particular, developer solutions which do not contain sodium thiosulfate pentahydrate show very low values for the maximum blackening even with a high development efficiency. It can be seen from this that a photosensitive aluminum plate which is a special photosensitive material. is different from a conventional silver halide light-sensitive material. and that development solutions. which contain no sodium thiosulfalpene lahydnite or potassium thiocyanate or neither, not within a short development time, such as / B. of 30 seconds, _{/ u emcr m} . _mma | _s black can lead, and that? emc wcscnUnh longer duration of activation in this I-all is crloiderlich

Claims (2)

l'nlenliMsprchc: I. Fast winding solution. which is a development tool Contains preservatives and an alkali, for light-sensitive silver halide materials, which contain an anodically oxidized aluminum substrate, characterized in that that they also contain the following four components known to developers in Kornbinalion contains, namely an alkali thiosulfate, an alkali thiocyanate, l-phenyl-S-mercaptotetrazole and Ethylenediamine, the molar ratio of the alkali thiosulfate to the alkali thiocyanate in the range of 1: 1 to 2: 1 and the molar ratio of l-PhcnyI-5-mercaptotetrazole to the ethylenediamine ranges from 1: 1 to 1: 2. 2. Use of the fast developing solution according to claim 1 for processing an exposed one silver halide photosensitive material composed of an aluminum support containing 0.05 to 1.0 percent by weight copper and with a porous oxide layer thereon, which through Anodization of the aluminum support was formed, in the pores of the oxide layer the light-sensitive material is worn.