RU2272310C2 - Method for making photo-emulsion layer - Google Patents

Abstract

FIELD: chemical industry, photography, possible use for producing filming products with photo-emulsion cover with given properties.

SUBSTANCE: method for producing photo-emulsion layer on filming products with grain shape in form of right hexagon, positioned evenly close to each other, includes, in specially engineering expression a=2,31·(f₁/f₂)·horizontal, where a - side of right hexagon, centimeters; f₁ - cohesion force, kilogram-force/cm² - resistance of grain to tear; f₂ - adhesion force, kilogram-force/cm² - hardness of photo-emulsion layer for tearing from surface; horizontal -thickness of layer, cm, photo-emulsion is taken with value of relation of cohesion force to adhesion force f₁/f₂=1,0-1,3 at value of adhesion force relatively to surface of intermediate layer f₂=0,5-1,5 kilogram-force/cm². expression allows calculation of relation between side of right hexagon and grain thickness h.

EFFECT: possible increase of quality of prepared filming product due to production of photo-emulsion layer with shape of grains in form of right hexagon, positioned at evenly close distance from each other.

Description

The invention relates to the field of the chemical-photographic industry and can be used in the manufacture of film and photographic products with an emulsion coating with desired properties.

A known method of applying a viscous emulsion [patent of Russia, No. 2168196, MKI G 03 With 1/74. The method of applying a viscous emulsion / Dmitriev S.A., Kovalev I.K., Gavrilenko M.V. No. 96105262/28, declared 03.19.1996; publ. 20/04/2003. Bull. No. 11], which consists in the fact that the substrate is pulled through a bath with a liquid mass, a metal with a low melting point, for example, a Wood alloy, is placed in the bath. The alloy is heated to its melting point and traveling waves of decaying surface waves are created on the surface of the molten metal, into the troughs of which a liquid mass is contacted with the substrate. The retention of the substrate over the surface of the bath is carried out by pressing the substrate to the reference plane with the crests of the surface waves of the liquid metal. The method is characterized in that ultrasonic surface waves are additionally created on the surface of the liquid metal and a viscous liquid mass is used.

The disadvantage of this method is that the use of ultrasonic surface waves and viscous emulsions do not provide grains on the surface of the film materials in the form of a regular hexagon. After drying the emulsion layer, grains of irregular shape are formed and are located at an uneven distance from each other.

The aim of the invention is to improve the quality of film and photo products by obtaining a photoemulsion layer with the shape of grains in the form of a regular hexagon, located at a uniformly close distance from each other.

This goal is achieved by the fact that in a specially developed equation (1) a = 2.31 (f ₁ / f ₂ ) h, where a is the side of the regular hexagon, cm; f ₁ - cohesion force, kgf / cm ² - tensile strength; f ₂ - adhesion force, kgf / cm ² - tensile strength from the surface, the emulsion is taken with a value of f ₁ / f ₂ = 1.0-1.3 with f ₂ = 0.5-1.5 kgf / cm in relation to the surface of the intermediate layer.

Analysis of the known technical solutions (analogues) allows us to conclude that there are no signs in them that coincide with the features of the proposed method for producing a photographic emulsion layer on film and photographic products with the shape of grains in the form of a regular hexagon, and recognize the claimed solution as meeting the criterion of "significant differences".

The use of a photoemulsion with a value of f ₁ / f ₂ = 1.0-1.3 with f ₂ = 0.5-1.5 kgf / cm ² relative to the surface of the intermediate layer gave an unexpected effect. The obtained emulsion layer on film and photo materials has the shape of grains in the form of a regular hexagon, uniformly closely adjacent to each other. As a result of this, the quality of film and photo production improves. In addition, the proposed equation (1) allows us to calculate the ratio between the side of the regular hexagon (grain) a and the grain thickness h.

The achieved effect became possible due to the use of a specially developed equation (1), which numerically relates the side of the regular hexagon (grain) a, the ratio of the cohesion force to the adhesion force f ₁ / f ₂ and the grain thickness h. It turned out that in order to obtain grains in the form of a regular hexagon, it is necessary to achieve a ratio between the side of the hexagon (grain) a and the grain thickness h in the following form: a = 2.31 ... 3.00 h. This ratio is achieved when the ratio f ₁ / f ₂ = 1,0-1,3.

In order to avoid delamination of the photoemulsion layer, it is not recommended to take a photoemulsion with a value of adhesion with respect to the intermediate layer f ₂ less than 0.5 kgf / cm ² . You should not take a photoemulsion with an adhesion force value of more than 1.5 kgf / cm ² , with a ratio of the cohesion force to the adhesion force of less than 1.0 and more than 1.3 in order to avoid the formation of an emulsion layer in the form of irregular grains after drying.

Example 1

An intermediate layer is applied to the surface of the photographic material. Take a photoemulsion with the value of the ratio of the cohesion force f ₁ to the adhesion force f ₂ 1,0 when the value of the adhesion force equal to 1.0 kgf / cm ² . Apply a photoemulsion layer. After drying, grains are formed in the form of a regular hexagon, side (a) of which is calculated using the specially developed equation (1) a = 2.31 (f ₁ / f ₂ ) h, where h is the thickness of the grain (emulsion layer). Equation (1) takes the following form a = 2.31h. With a grain thickness of h = 4 μm, the side of the regular hexagon is a = 9.2 μm. Grains evenly close to each other. The photo products made in this way are of high quality.

Example 2

An intermediate layer is applied to the surface of the film material. Take a photoemulsion with a value of the ratio of the cohesion force to the adhesion force of 1.2 when the adhesion force is 0.5 kgf / cm ² . Apply a photoemulsion layer. After drying, grains are formed in the shape of a regular hexagon. Equation (1) takes the following form: a = 2.77h. With a grain thickness of h = 5 μm, the side of the regular hexagon is a = 13.8 μm. Grains evenly close to each other. Films made in this way are of high quality.

Example 3

An intermediate layer is applied to the surface of the photographic material. Take a photoemulsion with a value of the ratio of the cohesion force to the adhesion force of 1.3 when the adhesion force is 1.5 kgf / cm. Apply a photoemulsion layer. After drying, grains are formed in the shape of a regular hexagon. Equation (1) will take the following form: a -3.00h. With a grain thickness of h = 3.5 μm, the side of the regular hexagon is a = 10.5 μm. Grains evenly close to each other. The photo products made in this way are of high quality.

Thus, the examples show that the proposed method has advantages. The use of a photoemulsion with a value of the ratio of the cohesion force to the adhesion force different from 1.0-1.3, with the adhesion force equal to 0.5-1.5 kgf / cm ² , allows to obtain an emulsion layer in the form of grains in the form of a regular hexagon. Grains evenly close to each other. Using equation (1), the ratio of the side of the regular hexagon to the thickness of the grain is calculated, i.e. emulsion layer. Films made in this way are of high quality.

Claims (1)

A method of obtaining a photo-emulsion layer on film materials with the shape of grains in the form of a regular hexagon adjacent evenly close to each other, which consists in the fact that in a specially developed equation a = 2.31 · (f ₁ / f ₂ ) · h, where a is the side of the regular hexagon, cm; f ₁ - cohesion force, kgf / cm ² - grain tensile strength; f ₂ - the adhesion force, kgf / cm ² - the strength of the emulsion layer at separation from the surface; h is the thickness of the layer, cm the emulsion is taken with the value of the ratio of the cohesion force to the adhesion force f ₁ / f ₂ = 1.0-1.3 with the value of the adhesion force with respect to the surface of the intermediate layer f ₂ = 0.5-1.5 kgf / cm ² .