US2059862A - Manufacture of photographic films - Google Patents

Manufacture of photographic films Download PDF

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US2059862A
US2059862A US2081A US208135A US2059862A US 2059862 A US2059862 A US 2059862A US 2081 A US2081 A US 2081A US 208135 A US208135 A US 208135A US 2059862 A US2059862 A US 2059862A
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layers
cellulose
support
cellulose acetate
layer
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US2081A
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Harry Le B Gray
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Eastman Kodak Co
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Eastman Kodak Co
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Priority to US2081A priority Critical patent/US2059862A/en
Priority to GB1013/36A priority patent/GB468791A/en
Priority to FR800772D priority patent/FR800772A/en
Priority to DEK140753D priority patent/DE662619C/en
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    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03CPHOTOSENSITIVE MATERIALS FOR PHOTOGRAPHIC PURPOSES; PHOTOGRAPHIC PROCESSES, e.g. CINE, X-RAY, COLOUR, STEREO-PHOTOGRAPHIC PROCESSES; AUXILIARY PROCESSES IN PHOTOGRAPHY
    • G03C1/00Photosensitive materials
    • G03C1/76Photosensitive materials characterised by the base or auxiliary layers
    • G03C1/91Photosensitive materials characterised by the base or auxiliary layers characterised by subbing layers or subbing means
    • G03C1/93Macromolecular substances therefor

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  • This invention has as an object to provide a light-sensitive photographic film having satisfactory flexibility and emulsion adherence .characteristics and including a base or support com-' posed of a cellulose organic ester. Another object is to provide a photographic film base composed of a mixed cellulose organic ester, such as cellulose acetate-propionate, which is adapted for the application of gelatin subs or undercoats without the use of solvents which induce brittlef hes in the finished product. A further object is to provide a photographic film having satisfactory fiexibility and emulsion adherence characteristics which may be gel-coated and emulsion-coated without the use of undercoats of cellulose nitrate. Other objects will hereinafter appear. I
  • a film support composed of cellulose acetate-propionate by coating an appropriate dope onto a film-form- 3(] ing surface by a known technique.
  • a dope may, for example, be composed of 19% by weight of a fully esterified cellulose acetate-propionate containing 30% acetyl and 16% propionyl (apparent acetyl 41%), 4.75% of tri-phenyl phosphate, and 76.25% of ethylene dichloride;
  • the conditions of coating are so controlled that, after evaporation of solvents and curing of the film by subjecting it to appropriate temperatures, a sheet or film of cellulose acetate-propionate approximately .008 inch in thickness is obtained.
  • Van Dyke Serial No. 722,251, filed April 25, 1934, and the patent to C. J. Malm and C. F. Fletcher, 2,026,583, relating to the selective hydrolysis of mixed organic esters of cellulose.
  • A designates a fihn support composed of a fully esterified cellulose acetate-propionate (41% apparent acetyl)
  • B designates a cellulose acetate-propionate sub-layer containing approximately 16% propionyl (39% apparent acetyl)
  • C designates a second cellulose acetate-propionate sub-layer in which the ester contains about 16% propionyl (35% apparent acetyl)
  • D is the usual gelatin sub-layer
  • E represents the final gelatino-silver halide emulsion.
  • the film as a whole has a high degree of flexibility and excellent emulsion adherence characteristics as determined by the usual tests for these properties.
  • the particular celluloseacetate-propionates employed may range anywhere from a fully esterified cellulose acetatepropionate, such as one containing 41% apparent acetyl, to an ester which has been hydrolyzed to 34.8%, or less, apparent acetyl. While I have chosen to illustrate my invention by reference to cellulose acetate-propionates in which the ratio of acetyl to propionyl has been maintained constant, my invention is equally applicable to the use of mixed esters in which the acetyl-propionyl ratio may vary. Likewise, other cellulose esters may be employed in the manner herein described, typical examples being cellulose acetate-butyrate, cellulose acetate-stearate, cellulose propionate-butyrate, and many others.
  • a photographic film support comprising a cellulose acetate film base of substantial thickness having superimposed on and adhesively joined thereto, a composite layer composed of a series of separate and distinct extremely thin layers of a cellulose acetate material substantially identical with the material of the base, but each of said layers composed of material hydrolized to a greater degree than the material of the layer next underlying it and to a less degree than the layer next overlying it, each of said layers being compatible with the material. of both the underlying and overlying layers and adhesively joined thereto.
  • a photographic film support comprising a mixed cellulose organic acid ester film base of substantial thickness having superimposed on and adhesively joined thereto, a composite layer composed of a series of separate and distinct extremely thin layers of a cellulose organic acid ester material substantially identical with the material of the base, but each of said layers composed of material hydrolized to a greater degree than the material of the layer next underlying it and to a less degree than the layer next overlying it, each of said layers being compatible with the material of both the underlying and overlying layers and adhesively joined thereto.
  • a photographic film support comprising a cellulose acetate propionate film base of substantial thickness having superimposed on and adhesively joined thereto, a composite layer composed of a series of separate and distinct extremely thin layers of a cellulose acetate propionate material substantially identical with the material of the base, but each of said layers composed of material hydrolized to a greater degree than the material of the layer next underlying it and to a less degree than the layer next overlying it, each of said layers being compatible with the material of both the underlying and overlying layers and adhesively joined thereto.
  • a photographic film support comprising a film base of substantial thickness composed of fully esterified cellulose acetate propionate having superimposed on and adhesively joined thereto a composite layer composed of a series of separate and distinct extremely thin layers of cellulose acetate propionate, the material of these layers, respectively, being hydrolized progressively within the range of 41% to 34.8% apparent acetyl, each of said layers being compatible with the material of both the underlying and overlying layers and adhesively joined thereto.
  • a photographic film of satisfactory flexibility and free from brittleness comprising a cellulose organic acid ester support and a photographically sensitive colloid layer adhesively joined to the support by a composite intervening layer comprising a series of separate and distinct extremely thin subs composed of a cellulose organic acid ester material substantially identical with the material of the base but each of said subs composed of material hydrolized to a greater degree than the material next underlying it and to a less degree than the material next overlying it, each of said subs being compatible with the material of both the underlying and overlying layers and adhesively joined thereto, and a gel sub adhesively joined to the most hydrolized sub and to the sensitive colloid layer.
  • A-photographic film of satisfactory flexibility and free from brittleness comprising a cellulose acetate support and a photographically sensitive colloid layer adhesively joined to the support by a composite intervening layer comprising a series of separate and distinct extremely thin subs composed of cellulose acetate, each of said subs being hydrolized to a greater degree than the material next underlying it and to a less degree than the material next overlying it, each of said layers being compatible with the material of both the underlying and overlying layers and adhesively joinedthereto, and a gel sub adhesively joined to the mosthydrolized sub and to the sensitive colloid layer.
  • a photographic film of satisfactory flexibility and free from brittleness comprising a mixed cellulose organic acid ester support and a photographically sensitive colloid layer adhesively joined to the support by a composite intervening layer comprising a series of separate and distinct extremely thin subs composed of a material substantially identical with the material of the base, but each of said subs consisting ofmaterial hydrolized to a greater degree than the material next underlying it and to a less degree than the material next overlying it, each of said layers being compatible with the material of both the underlying and overlying layers and adhesively joined thereto, and a gel sub adhesively joined to the most hydrolized sub and to the sensitive colloid layer.
  • a photographic film of satisfactory flexibility and free from brittleness comprising a cellulose acetate propionate support and a photographically sensitive colloid layer adhesively joined to the support by a composite intervening layer composed of a series of separate and distinct extremely thin subs composed of cellulose acetate propionate, each sub consisting of material hydrolized to a greater degree than the material next underlying it and to a less degree than the material next overlying it, each of said subs being compatible with the material of both the underlying and overlying layers and adhesively joined thereto, and a 'gel sub adhesively joined to the; most hydrolized sub and to the sensitive colloid layer.
  • a photographic film of satisfactory flexibility and free from brittleness comprising a fully esterified cellulose acetate propionate support and a photographically sensitive colloid layer adhesively joined to the support by a composite intervening layer comprising a series of separate and distinct extremely thin subs composed of cellulose acetate propionate, the material of each sub being respectively hydrolized progressively within the range of 41% to 34.8% apparent acetyl, each of said layers being compatible with the material of both the underlying and overlying layers and adhesively joined thereto, and a gel sub adhesively joined to the most hydrolized sub and to the sensitive colloid layer.

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  • Physics & Mathematics (AREA)
  • Spectroscopy & Molecular Physics (AREA)
  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Materials Engineering (AREA)
  • General Physics & Mathematics (AREA)
  • Laminated Bodies (AREA)
  • Application Of Or Painting With Fluid Materials (AREA)
  • Manufacture Of Macromolecular Shaped Articles (AREA)

Description

NOV. 3, 1936. LE Y 2,059,862
MANUFACTURE OF PHOTOGRAPHIC FILMS Filed Jan. 16, 1935 HALIDE EMULSION ACETATE PROPIONATE SUBQEZAPPARENT KfTYL) ACETATE PROPIONATE SUB(39%APPARENT ACETYL) ESTERIFIED CELLULOSE ACEMTF PROPKJNA'I'E SUPPORT (4/ 96 APPAREN T ACETYL) sme'ntou Hm'ryLaBGrql M 71% Patented Nov. 3, 1936 PATENT OFFICE MANUFACTURE or rnorooaarmo FILMS Harry Le B. Gray, Rochester, N. Y., assignor, by -mesne assignments, to Eastman Kodak Company, Jersey City, N. J., a corporation of New Jersey Application January 16, 1935, Serial No. 2,081
10 Claims.
This invention relates to photographic materials and, more particularly to an improved type of photographic film comprising a cellulose organic ester support which has been especially treated to adapt it for the application of the light-sensitive emulsion.
As is well known, photographic emulsions (which are light-sensitive colloidal solutions or dispersions of gelatin in aqueous media) cannot be made to stick to the surface of a film support composed of a cellulose derivative material unless the support has been coated or subbed with gelatin or some other substance to which the emulsion can be made to adhere. In order to obtain adherence of the gelatin to a cellulose derivative surface it must bedeposited from a solution which has a solvent or at least a softening or swelling action with respect to the cellulose derivative, that is, the solution must bite into the cellulose derivative material to a, certain extent in order to anchor the deposited gelaa satisfactory degree of adherence may be attained, without a substantial loss of flexibility, 'by the use of relatively weak gelatin subbing solutions. Cellulose organic ester films of the safety type, on the other hand, require much stronger solvents in the subbing solution with a resulting increase in adherence of the deposited gelatin layer or layers and, therefore, inlthe brittleness of the finished product. In order to get aroundthis difiiculty, it has been proposed to first apply to the cellulose organic derivative material a thin undercoat of cellulose nitrate to which the gel sub may be applied, as previously indicated, from weak solutions, but this has the disadvantage that it introduces cellulose nitrate into the product and makes it difficult to meet,
the underwriters specifications for safety film.
This invention has as an object to provide a light-sensitive photographic film having satisfactory flexibility and emulsion adherence .characteristics and including a base or support com-' posed of a cellulose organic ester. Another object is to provide a photographic film base composed of a mixed cellulose organic ester, such as cellulose acetate-propionate, which is adapted for the application of gelatin subs or undercoats without the use of solvents which induce brittlef hes in the finished product. A further object is to provide a photographic film having satisfactory fiexibility and emulsion adherence characteristics which may be gel-coated and emulsion-coated without the use of undercoats of cellulose nitrate. Other objects will hereinafter appear. I
These objects are accomplished by the following invention which, in its broader aspects, comprises depositing upon a cellulose acetatepropionate support, for example, a series of progressively hydrolyzed layers of cellulose acetatepropionate, each .of which is compatible with both the underlying and overlying layers and'in ea'ch of which thehydrolysis of the ester hasv been carried to a greater extent than in the preceding layer. In the following examples and description, I have set forth several of the preferred embodiments of my invention, but they are included merely for purposes of illustration and not as a limitation thereof.
In carrying out my invention I prepare a film support composed of cellulose acetate-propionate by coating an appropriate dope onto a film-form- 3(] ing surface by a known technique. Such a dope may, for example, be composed of 19% by weight of a fully esterified cellulose acetate-propionate containing 30% acetyl and 16% propionyl (apparent acetyl 41%), 4.75% of tri-phenyl phosphate, and 76.25% of ethylene dichloride; The conditions of coating are so controlled that, after evaporation of solvents and curing of the film by subjecting it to appropriate temperatures, a sheet or film of cellulose acetate-propionate approximately .008 inch in thickness is obtained.
I then deposit on the film support produced as described in the preceding paragraph a, series thi knes will be laid down on the material. 56
' lyzed cellulose acetate-propionate may be de- Acetone In general, these layers are extremely thin and possibly not more than a few millionths of an inch'in thickness. After each application of the subbing solution, the support is subjected to an appropriate drying operation at a temperature sufficient to evaporate solvents and to set the deposited cellulose ester on the surface of the support; The concentration -of the ester for any given subbing solution may be varied within rather wide limits, depending upon the thickness of layer which isdesired and upon the speed of coating.
Many different layers of progressively hydroposited on the support-as desired, a typical series of subbing solutions for coating a cellulose acetate-propionate film support of the above indicated composition (41% apparent acetyl) being indicated below:
- Percent by weight Cellulose acetate-propionate (16% propionyl,
89% apparent acetyl) Methyl alc 3 Percent by weight The above formulae are merely typical examples of appropriate solutions for depositing the cellulose acetate-propionate layer, and many changes therein may be made within the scope of my invention. As will be apparent, an almost infinite number of cellulose acetate-propionates hydrolyzed to difierent degrees may be employed, so long as a series of layers is deposited upon the support, each of which layer is compatible, both with the layer of cellulose acetate-propionate underlying it, and that overlying it. Various solvents or solvent combinations may be employed in the place of the acetone and methyl alcohol included in the above formulae, typical examples being mixtures of ethylene dichloride and 15% methyl alcohol and 85% propylene dichloride and 15% methyl alcohol.
After deposition on the support of the final cellulose acetate-propionate coating, the support is subjected to appropriate drying, after which the usual gelatin sub-layer is applied, its application being carried out similarly to the deposition of the cellulose acetate-propionate layers, a typical solution for this purpose having the following composition:
' Percent by weight Gelati n 1.2 Acetic acid 0.6 Water s 5.0 Acetone- -a 70.0 Ethyl alcohol 23.2
Van Dyke, Serial No. 722,251, filed April 25, 1934, and the patent to C. J. Malm and C. F. Fletcher, 2,026,583, relating to the selective hydrolysis of mixed organic esters of cellulose.
My invention will be more fully understood by reference to the accompanying drawing in which A designates a fihn support composed of a fully esterified cellulose acetate-propionate (41% apparent acetyl), B designates a cellulose acetate-propionate sub-layer containing approximately 16% propionyl (39% apparent acetyl), C designates a second cellulose acetate-propionate sub-layer in which the ester contains about 16% propionyl (35% apparent acetyl), D is the usual gelatin sub-layer, while E represents the final gelatino-silver halide emulsion.
Although all of the layers of the above described film structure are strongly adherent to one another, the film as a whole has a high degree of flexibility and excellent emulsion adherence characteristics as determined by the usual tests for these properties.
One of the outstanding features of my invention is the fact that I can produce a highly satisfactory photographic film without the use of the usual cellulose nitrate undercoats and can obtain the desired degree of adherence of the emulsion to the base through the agency of the weaker types of gel-subbing solutions, thus avoiding objectionable brittleness in the finished product.
While I do not confinemyself to any particular theory or explanation of the results obtained, it appears that the eflectiveness of my invention is due to the fact that each of the successive layers of cellulose acetate-propionate is compatible, both with the underlying and overlying layers of material, and the further fact that as the degree of hydrolysis of the ester is increased, the weaker are the solvents required to stick the gel sub to the base. In other words, I am enabled to use substantially the same types of gel subs as are customarily used for nitrate film base without a sacrifice of adherence.
As indicated above, the particular celluloseacetate-propionates employed may range anywhere from a fully esterified cellulose acetatepropionate, such as one containing 41% apparent acetyl, to an ester which has been hydrolyzed to 34.8%, or less, apparent acetyl. While I have chosen to illustrate my invention by reference to cellulose acetate-propionates in which the ratio of acetyl to propionyl has been maintained constant, my invention is equally applicable to the use of mixed esters in which the acetyl-propionyl ratio may vary. Likewise, other cellulose esters may be employed in the manner herein described, typical examples being cellulose acetate-butyrate, cellulose acetate-stearate, cellulose propionate-butyrate, and many others.
While I have found it convenient to illustrate my invention by reference to a support or sheet of cellulose acetate propionate having a plurality of superimposed layers of progressively more hydrolyzed cellulose acetatepropionate on one surface, my invention is in no sense limited to this particular form of product as it may be equally well applied to the manufacture of products in which such layers are applied to both surfaces, as is the case in X-ray and portrait types of film.
What I claim is:
l. A photographic film support comprising a cellulose organic acid ester film base of substantial thickness having superimposed on and adhesively joined thereto, a composite layer composed of a series of separate and distinct extremely thin layers of a cellulose organic acid ester material substantially identical with the material of the base, but each of said layers composed of material hydrolized to a greater degree than the material of the layer next underlying it and to a less degree than the layer next overlying it, each of said layers being compatible with the material of both the underlying and overlying layers and adhesively joined thereto.
2. A photographic film support comprising a cellulose acetate film base of substantial thickness having superimposed on and adhesively joined thereto, a composite layer composed of a series of separate and distinct extremely thin layers of a cellulose acetate material substantially identical with the material of the base, but each of said layers composed of material hydrolized to a greater degree than the material of the layer next underlying it and to a less degree than the layer next overlying it, each of said layers being compatible with the material. of both the underlying and overlying layers and adhesively joined thereto.
3. A photographic film support comprising a mixed cellulose organic acid ester film base of substantial thickness having superimposed on and adhesively joined thereto, a composite layer composed of a series of separate and distinct extremely thin layers of a cellulose organic acid ester material substantially identical with the material of the base, but each of said layers composed of material hydrolized to a greater degree than the material of the layer next underlying it and to a less degree than the layer next overlying it, each of said layers being compatible with the material of both the underlying and overlying layers and adhesively joined thereto.
4. A photographic film support comprising a cellulose acetate propionate film base of substantial thickness having superimposed on and adhesively joined thereto, a composite layer composed of a series of separate and distinct extremely thin layers of a cellulose acetate propionate material substantially identical with the material of the base, but each of said layers composed of material hydrolized to a greater degree than the material of the layer next underlying it and to a less degree than the layer next overlying it, each of said layers being compatible with the material of both the underlying and overlying layers and adhesively joined thereto.
5. A photographic film support comprising a film base of substantial thickness composed of fully esterified cellulose acetate propionate having superimposed on and adhesively joined thereto a composite layer composed of a series of separate and distinct extremely thin layers of cellulose acetate propionate, the material of these layers, respectively, being hydrolized progressively within the range of 41% to 34.8% apparent acetyl, each of said layers being compatible with the material of both the underlying and overlying layers and adhesively joined thereto.
6-. A photographic film of satisfactory flexibility and free from brittleness comprising a cellulose organic acid ester support and a photographically sensitive colloid layer adhesively joined to the support by a composite intervening layer comprising a series of separate and distinct extremely thin subs composed of a cellulose organic acid ester material substantially identical with the material of the base but each of said subs composed of material hydrolized to a greater degree than the material next underlying it and to a less degree than the material next overlying it, each of said subs being compatible with the material of both the underlying and overlying layers and adhesively joined thereto, and a gel sub adhesively joined to the most hydrolized sub and to the sensitive colloid layer.
7. A-photographic film of satisfactory flexibility and free from brittleness comprising a cellulose acetate support and a photographically sensitive colloid layer adhesively joined to the support by a composite intervening layer comprising a series of separate and distinct extremely thin subs composed of cellulose acetate, each of said subs being hydrolized to a greater degree than the material next underlying it and to a less degree than the material next overlying it, each of said layers being compatible with the material of both the underlying and overlying layers and adhesively joinedthereto, and a gel sub adhesively joined to the mosthydrolized sub and to the sensitive colloid layer.
8. A photographic film of satisfactory flexibility and free from brittleness comprising a mixed cellulose organic acid ester support and a photographically sensitive colloid layer adhesively joined to the support by a composite intervening layer comprising a series of separate and distinct extremely thin subs composed of a material substantially identical with the material of the base, but each of said subs consisting ofmaterial hydrolized to a greater degree than the material next underlying it and to a less degree than the material next overlying it, each of said layers being compatible with the material of both the underlying and overlying layers and adhesively joined thereto, and a gel sub adhesively joined to the most hydrolized sub and to the sensitive colloid layer.
9. A photographic film of satisfactory flexibility and free from brittleness comprising a cellulose acetate propionate support and a photographically sensitive colloid layer adhesively joined to the support by a composite intervening layer composed of a series of separate and distinct extremely thin subs composed of cellulose acetate propionate, each sub consisting of material hydrolized to a greater degree than the material next underlying it and to a less degree than the material next overlying it, each of said subs being compatible with the material of both the underlying and overlying layers and adhesively joined thereto, and a 'gel sub adhesively joined to the; most hydrolized sub and to the sensitive colloid layer.
10. A photographic film of satisfactory flexibility and free from brittleness comprising a fully esterified cellulose acetate propionate support and a photographically sensitive colloid layer adhesively joined to the support by a composite intervening layer comprising a series of separate and distinct extremely thin subs composed of cellulose acetate propionate, the material of each sub being respectively hydrolized progressively within the range of 41% to 34.8% apparent acetyl, each of said layers being compatible with the material of both the underlying and overlying layers and adhesively joined thereto, and a gel sub adhesively joined to the most hydrolized sub and to the sensitive colloid layer.
HARRY LE B. GRAY.
US2081A 1935-01-16 1935-01-16 Manufacture of photographic films Expired - Lifetime US2059862A (en)

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US2081A US2059862A (en) 1935-01-16 1935-01-16 Manufacture of photographic films
GB1013/36A GB468791A (en) 1935-01-16 1936-01-11 Improvements relating to photographic films
FR800772D FR800772A (en) 1935-01-16 1936-01-16 Improvements to film or photographic film
DEK140753D DE662619C (en) 1935-01-16 1936-01-17 Process for improving the adhesive strength of layers on carriers made of organic cellulose esters in photographic films

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2847709A (en) * 1955-03-14 1958-08-19 Eastman Kodak Co Process of producing unoriented formed articles from high polymers
US3026276A (en) * 1958-11-03 1962-03-20 Eastman Kodak Co Acetone solution of cellulose triacetate and vinyl polymer and process for preparing same

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB201002315D0 (en) * 2010-02-11 2010-03-31 Goodrich Actuation Systems Ltd Control system

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2847709A (en) * 1955-03-14 1958-08-19 Eastman Kodak Co Process of producing unoriented formed articles from high polymers
US3026276A (en) * 1958-11-03 1962-03-20 Eastman Kodak Co Acetone solution of cellulose triacetate and vinyl polymer and process for preparing same

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GB468791A (en) 1937-07-12
DE662619C (en) 1938-07-18
FR800772A (en) 1936-07-18

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