DE2415325A1 - PROCESS FOR SEPARATING A COATING FROM A METAL BACKING - Google Patents

Description

The invention relates to the removal of worn photoconductive coatings from selenium of the metal base carrying them, e.g. metal plates or metal cylinders, in such a way that it is possible to use the Recover selenium without damaging it of the document material occurs so that all documents can be used again without the need for it is to rework them to give them the smooth surface that is needed when a photoconductive cylinder or plate is to be made by repeating the cylinder or plate is provided with a photoconductive coating of selenium or the like.

Although the method according to the invention is hereinafter with respect to the removing and recovering of selenium while avoiding any deterioration of the properties _n the U terlage metal described, but it is obvious that the invention can also apply other to coatings kind of to a base made of metal

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separate and remove them without changing the physical or chemical state of the coating material, and without any change or damage to the surface of the support bearing the coating occurring.

When making a usable plate or cylinder with a photoconductive surface in! Form a thin coating of a photoconductive material, e.g. selenium, it is important to use a metal base that has an exceptionally smooth surface, which is relatively free of defects. Otherwise the thin coating would be made of the photoconductive material the surface defects appear as defects in the B ^ Id that is generated in the coating, so that these errors also occur in the copies made with the aid of the coating would be present. Since the base must have a very high surface quality, it is necessary to to use a high quality material for the base and when preparing the surface for receiving the photoconductive Proceed with the utmost care. Therefore, it is necessary to have a relatively expensive base material to be used for photoconductive plates and cylinders. In view of this, it is desirable that one in is able to reuse the plates or cylinders after they have been stripped of the photoconductive coating without the need to rework the plates or cylinders.

Furthermore, since selenium and other materials from which photoconductive coatings are made are quite expensive it would be very desirable for reasons of economy and to ensure the supply of materials be able to remove such a coating from the base in such a way that essentially all of the material can be recovered in a form in which it can be reused during manufacture fresh phofeo-conductive coatings can be used on substrates of the type mentioned

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Various processes are already known "which" serve to remove coatings of selenium in used photoconductive plates from the metal base and to recover the selenium. According to the U.SA patent specification 2,816,008, it is known to remove the selenium by dissolving it in a molten alkali metal hydroxide. However, in this Verfa hr s is not only changes the appearance of the selenium in that the selenium is dissolved in the molten alkali metal hydroxide, but the molten alkali metal is a costly and dangerous medium, and moreover it leaves the surface of the liberated from the coating U terlage in an undesirable state. Similar processes in which the selenium is converted so that it can be removed by dissolving it in another material regardless of the effect on the surface of the base metal are described in U.S. Patents 2,889,206 and 2,378,824.

The invention is based on the object of creating a method that enables a coating of a metal base to be completely removed, in such a way that no harmful effect on the surface the document is exercised, ■ and that see that Can coating material easily and substantially completely recovered after removal from the substrate. In particular is to be created by the invention a simple and economical process that allows to completely remove a thin coating of selenium from the surface of a metal support without the surface quality of the substrate is impaired, and without defects on the surface, whereby which also allows selenium to be recovered in a form suitable for reuse.

Generally speaking, the procedure includes the Invention for completely and neatly removing or stripping the selenium coating from the surface of a metal plate E.g. the following sequential work steps: ■

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1. Rapid cooling of the plate carrying the coating to a temperature well below freezing point is, for example at a temperature below -50 ° C, and preferably to the temperature of liquid nitrogen, which is about -196 ° C;

2. Bringing the surface of the frozen plate bearing the coating into contact with a liquid, e.g. water, so that a layer of the frozen liquid, e.g. ice, is formed on the surface of the plate bearing the coating; for this purpose, the frozen plate can be immersed in water or water can be applied to the surface in question, e.g. by spraying on or by running a layer of water over the surface in such a way that the desired Ice layer builds up; and

5. Warm the frozen plate that is the layer from ice or another frozen liquid, e.g. with the help of water, hot gases, electrical Heaters, radiant heaters or the like to cause the layer of ice or frozen Liquid separates from the plate along with the selenium that was originally in the form of a coating on the Record was present »

Here, the metal base remains in a state in which its surface is covered by the coating has been released without this area being exposed to the action of substances or conditions which would result in a change of the surface properties could have brought about, and without the surface any physical or has been exposed to chemical attack. As a result, the original smooth surface remains free of imperfections is unchanged after the selenium coating has been removed from the plate.

At the same time, the selenium stripped from the surface of the plate is used to generate the Ice layer and the subsequent heating to peel off the ice layer does not change, so it is easy

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Wise can be recovered by separating the solid selenium from the water after remelting the Ice has been approved. The selenium thus remains in its place for reuse after recovery suitable original condition, so that it can be used again to produce photoconductive properties even without Öede special treatment Coatings can be used on substrates made of metal.

It is believed that the thermal shock suffered by the selenium coated plate during initial cooling is exposed to a separation of the selenium layer from the underlying smooth surface of the plate from the Base material causes, and that by the subsequent creation of an ice layer and the removal of the ice layer a medium is created by means of which the selenium layer lifted off the plate surface as part of a Medium can be separated from which the selenium can easily be recovered.

However, there is also the possibility that the preferential adhesion of the selenium layer to the ice layer in "Connection with the weakening of the bond between the selenium layer and the smooth surface of the base metal as a result of the thermal shock or a different one Contraction on cooling and a different expansion on heating cause the selenium layer to separate can be separated cleanly from the base together with the layer of ice produced on the selenium coating.

Theoretically, the metal base acts as a heat sink, while the extremely low one Maintains temperature after the ice layer has been created on its surface, causing it to become supercooled the ice layer to a point where embrittlement occurs. Thus, the ice layer can with separate the adhering selenium from the base, that heat is acted on the side bearing the ice sheet or on the opposite side or on both sides leaves.

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If the heating medium, e.g. water, is brought to room temperature or a higher temperature, on the side bearing the ice layer, the ice layer breaks up into numerous pieces, if the heat is released act on the side of the surface facing away from the ice layer, the ice layer has a greater tendency to shape itself a contiguous! area. In practice it is preferred to spray water on the ice sheet because the impinging stream of water causes the detached pieces of ice from the surface of the metal plate to be washed off.

Having described the principles of the E _r invention have been explained, a method will be described below as an example, the invention is not limited to that described, makes it possible to remove a selenium layer from a light printing plate.

In this example, a drum made of aluminum is used with a diameter of 233 mm and a Length of 348 mm has a wall thickness of 6.5 mm, and their The circumferential surface has a surface finish of 8 microinches (0.0002 mm) and is provided with a thin coating of selenium.

The drum is placed in a bath of liquid nitrogen at a temperature of about atmospheric pressure -196 ° C immersed. The drum remains immersed until the "boiling" has essentially stopped, which indicates becomes that the drum has been cooled to approximately the temperature of the liquid nitrogen. In which In the example described herein, the drum was immersed in the liquid nitrogen for 2 minutes.

After removing from the liquid nitrogen bath, the cooled drum is quickly transferred to a bath of cold Submerged in water for so long that a layer of ice forms on the surface of the drum, but not -so long that a significant increase in temperature of the metal of the drum is brought about. At the loading

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In the example given, the cooled drum was immersed in ice water for about 50 seconds.

Under these conditions the aluminum drum will still remain well below the freezing point of water, and the cold is transferred from the metal drum to the ice layer, so that the ice layer is supercooled and thereby becomes embrittled. It is useful to see the drum for about 50 seconds up to about 5 minutes and preferably 1 to 2 minutes in this Leave the condition so that the desired undercooling of the ice layer is achieved.

Immediately afterwards there is water, which is at the ambient temperature is injected onto the inner surface of the cylindrical drum. The aluminum drum heats up during this process faster than the ice layer, and the mantle formed by the ice with which the selenium is combined can be removed from the surface of the drum.

However, it is also possible to spray the water onto the surface of the ice sheet. This breaks the Ice layer in pieces, which are washed off the drum surface by the water jet, and on which the selenium adheres.

Now one can allow that to be combined with the selenium Ice melts, so that the selenium material remains as a solid substance that is easily removed from the water • Filtering, pouring off, centrifuging or by means of a similar device for separating a liquid from can separate solid material.

Of course you can instead of "use water." To create a layer of ice, use another liquid that is in the frozen or solidified state passes.

Furthermore, it is obvious that the principles of the invention can also be applied to other coatings to remove from an underlay material, if

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between the cover and the material of the base significant difference in terms of thermal expansion and contraction coefficients are present, since in this case it is possible to have a cold shock and / or a To bring heat shock to the effect, so that the coating separates from the material of the base at the interface. If the coating is found to adhere more strongly to the layer of ice or other frozen liquid than on the smooth surface of the base, the peeled-off coating can be neatly removed from the base. the The effectiveness of the process is further enhanced if the material of the underlay conducts heat quickly »

Claims; 409841/1027

Claims (1)

PATENT CLAIMS ty. A method for cleanly separating a coating from a substrate made of metal to which the coating was originally connected, the materials of the coating and the substrate differing considerably with regard to their coefficients of thermal expansion and contraction, characterized in that the substrate carrying the coating Metal is quickly brought to a temperature well below the freezing point that the coating is wetted after cooling with a liquid medium that freezes at the low temperature to which the metal base has been cooled, so that a layer of frozen liquid is formed, and that heat one of the surfaces of the metal sheet is at least contacted with the coating effect, so that the layer terlage _n of frozen liquid together with the adhering thereto the coating of the U separates from metal. 2. The method according to claim 1, characterized in that the frozen layer on the coating is generated without the temperature of the metal base is significantly increased, and that the base with the coating and frozen layer is then held in their condition for a short period of time in order to allow cold to be transferred from the metal backing to the frozen liquid layer to provide a To cause supercooling of the layer. 409841 / I U27 44 - 10 - 3. The method according to claim 1, characterized in that it is allowed that the Underlay separate layer melts, and that then from the resulting liquid the solid material from which the Coating existed, is separated. 4. The method according to claim 1, characterized in that the surface bearing the coating Metal base is smooth, 5. The method according to claim 1 for recovering the selenium and the substrate having a smooth surface of metal in the case of a metal-based element carrying a coating of selenium, characterized in that that the temperature of the element rapidly increases to a The temperature, which is significantly below 0 ° C, is lowered so that the surface of the selenium coating is wetted with water for so long that a layer of ice forms on the surface of the selenium coating, and that at least one of the surfaces of the element carrying the coating of ice is brought to a higher temperature, so that the ice layer collapses with the selenium adhering to it separates from the metal base, which has a smooth surface 6. The method according to claim 5 »characterized in that the having a selenium coating Metal-based element is rapidly cooled to a temperature below -50 ° C. 7. The method according to claim 5 »thereby g e k e η η ze.i without the temperature of the element carrying the selenium coating by immersing the element in a Liquid nitrogen bath is rapidly lowered. 8 ο Method according to claim 7 »characterized in that the element carrying the selenium coating is left in the bath until the violent boiling of the bath essentially ceases " 9. The method according to any one of claims 5 to 8, characterized marked that the cooled 409841/1027 44 Element is wetted with water at least on its surface carrying the selenium coating "to get on the selenium coating to create a layer of ice. 1Oe method according to claim 9 »characterized in that the ice layer on the selenium coating is generated by immersing the cooled element in cold water » 11. The method according to claim 9, characterized in that a for generating the ice layer cold water stream is directed onto the selenium coating of the element. 12. The method according to claim 9 »characterized in that the ice layer by spraying or Spraying water onto the selenium coating is generated. 13. The method according to claim 5 »characterized in that the cooled element with so long ■ Water is wetted that the ice layer forms, but not so long that a significant increase in temperature the metal base occurs so that the metal base remains at a temperature that is significant is below freezing point 14 ·. A method according to claim 13, characterized in that the coated ice U terlage _n is kept from metal so long in its state that cold -from _n the cold U terlage metal transmitted to the ice layer to cause a supercooling of the ice layer . 15 · The method according to claim 5 »characterized in that the temperature is increased by that the side of the element bearing the selenium coating is wetted with water which is above the freezing temperature is located 16. The method according to claim 5 »characterized in that the temperature is increased 409841/1027 44-711 that the side of the element facing away from the selenium coating is wetted with barrels which, above the freezing temperature is located. . 17 · Method according to Claim 5 »characterized in that it is permitted that the Underlay separated ice layer by melting in the ν
liquid state passes, in which the liquid phase contains the selenium separated from the base as a solid substance, and that the solid selenium is then separated from the water. 409841/1027