DE1298385B - Packaging material impregnated with a vapor phase inhibitor - Google Patents

Description

The present invention relates to one having a vapor phase inhibitor impregnated packaging material, in particular in the form of a sheet, for objects Made of non-ferrous metals, with the exception of copper and copper alloys, for protection against discoloration and corrosion. The packaging material according to the invention is special for packaging cadmium, lead, zinc, tin, magnesium, aluminum, nickel, chromium, Lithium or the like as well as alloys consisting of these elements are suitable.

Packaging materials in the form of sheets which are vapor phase inhibitors are basically known. For example, it was proposed to use fixed Web-shaped wrapping or packaging material made of paper, cloth, other textile materials, Metal foils, plastic foils or with this material or with others Impregnate laminates formed from materials with suitable vapor phase inhibitors and these webs for wrapping or wrapping metals, particularly steel and iron as well as objects made from it. In doing so, the generally proceeded in such a way that the side of the packaging material carrying the inhibitor facing the metal surface. How the previously known packaging materials work consisted in that the anti-corrosion vapors gradually from the Packaging material will be released and corrosion of the wrapped or Prevent packed metal objects.

Such packaging materials have proven to be particularly effective to protect objects made of ferrous metals, e.g. iron and steel, proven.

According to an older proposal (see German patent specification 1182 503) Benzotriazole is used as a vapor phase inhibitor to prevent corrosion of copper and alloys containing copper. Another older suggestion (see German Patent 1186 725) goes to benzotriazole as a vapor phase inhibitor to prevent the corrosion of copper and copper-containing alloys according to German patent 1182 503 to be used as a 0.5 to 1.0 per cent solution for impregnating packaging material.

The present invention relates to a vapor phase inhibitor impregnated packaging material, in particular in the form of a sheet, for objects Made of non-ferrous metals - with the exception of copper and copper alloys, for protection against discoloration and corrosion, which is characterized in that it is benzotriazole contains as a vapor phase inhibitor.

According to a preferred embodiment of the present invention also becomes a packaging material which can be used as a general-purpose material can, made available, which is characterized in that it is for simultaneous A known vapor phase corrosion inhibitor for the protection of ferrous metals contains ferrous metals.

The packaging material according to the invention has proven to be particularly suitable to protect non-ferrous metals such as cadmium, lead, zinc, tin, Magnesium, aluminum, nickel, chromium, lithium or dgl or alloys of these Elements, proven. The known vapor-phase corrosion inhibitors, such as those for example in U.S. Patent 2,829,080 have virtually none Protective effect for non-ferrous metals, but often even cause staining and discoloration of these metals.

It has now been made in accordance with the preferred embodiment already mentioned of the invention that in. Surprisingly this discoloration and Oxidation of non-ferrous metals does not occur with these known inhibitors for iron can be used together with benzotriazole. Benzotriazole is with the so far known iron inhibitors well tolerated, the iron inhibitors not the Non-ferrous metals and the benzotriazole do not adversely affect the iron surfaces Influence way. According to this preferred embodiment, therefore, it becomes a general purpose packaging material made available, through which both objects made of ferrous metals as well made of non-ferrous metals can be effectively protected against corrosion and discoloration.

As materials for the web-shaped packaging material according to the invention are suitable in addition to paper, such as, for example, kraft pulp paper, fabric or the like Fabrics, sheets made of plastics, e.g. made of polyethylene, cellophane, polyvinyl butyral, Ethyl cellulose or the like, but also tin foils, aluminum foils or the like. Well suited are also multilayer webs in the form of transparent heat-sealing foils, such as they are described in U.S. Pat. No. 2,829,080, among others. Such Films consist of a clear organic base layer that is practical does not let through the vapors in question, and from one associated with this transparent organic cover layer made of a plastic that is permeable to the vapors. According to the invention, the benzotriazole and the vapor phase inhibitors for iron introduced into this top layer individually or together. According to an inventive Embodiment consists of the base layer of polyethylene glycol terephthalate and the Top layer made of polyvinyl acetate.

The amount of benzotriazole to be added to the packaging material may include vary within wide limits. However, practical considerations become generally between about 0.1 and about 1.0 to 2.0 g per 900 cm2 web area is added. In most cases a concentration of about 0.2 to about 0.5 g of benzotriazole will be satisfactory for the specified area. Also the amount by weight of benzotriazole, based on the weight of the packaging material, can vary. Good results is obtained when the benzotriazole is about 5 to 10 percent by weight, based on the Weight of the packaging material. The benzotriazole can be used in the packaging material can be added by various methods. Because benzotriazole at room temperature is about 211 / o water soluble, it can be dissolved in water and applied to the packaging material sprayed on or applied in any other way, whereupon the Water is evaporated. In some cases it is useful to use more concentrated benzotriazole solutions for impregnating the web material, for example made of kraft pulp paper use. For this purpose, the benzotriazole in mixtures of water and a organic solvent dissolved. Suitable solvents are for example Ethyl alcohol, isopropyl alcohol, acetone and other water-miscible organic Solvents in which the benzotriazole is soluble. The introduction of the benzotriazole into the solid packaging material can also be done by other known methods, for example using application rollers, by brushing, pouring on or the like (see, for example, U.S. Patent No. 2,521,311).

The packaging material according to the invention is particularly suitable for packaging sheet metal, wires, pipes, kitchen appliances, printed circuits and Similar electronic components, engravings and offset printing plates or the like. If an iron inhibitor is also added, the packaging material is suitable as a general-purpose material also for packaging objects made of iron, iron alloys and steel. It is assumed that under the usual storage conditions the benzotriazole to the extent to which it evaporates from the packaging material on the one to be protected Surface forms an invisible monomolecular film, which moisture, Oxygen, sulfides or the like can no longer penetrate. The natural shine of non-ferrous metals will be stained for extraordinarily long periods of time, Discoloration or oxidation retained. When using the packaging materials according to the invention it is appropriate to ensure that the metal surfaces to be protected are clean and free of fingerprints or other contamination. The metal objects should be packed as tightly as possible. For example, the inner walls a cardboard box can be coated or impregnated with benzotriazole. Becomes a packaging material when used in web form, for example made of kraft pulp paper, a cardboard or a similar container can be lined with pieces of such paper. In addition, outer or intermediate layers can be made from the paper webs, so that the individual pieces do not have to be hammered in on their own. It is particularly favorable if the protective paper according to the invention does not go any further than about 125 mm from the metal surfaces to be protected. If possible Care should be taken that the benzotriazole vapors do not escape to the outside.

The following examples illustrate the invention. Example 1 specimens made of cadmium in dimensions of 12.5 X 75 mm are bent into a horseshoe and wrapped in a sheet of the paper to be tested (100 X 100 mm). On the one hand, it is checked a normal kraft pulp paper and, on the other hand, a kraft pulp paper, which Contains 0.25 g benzotriazole per 900 cm2 of paper surface. The specimens will be like this wrapped so that the paper is in direct contact with the outer surface of the horseshoe stands and bridges the two arms of it. The wrapped specimens are placed in glass jars, each with a smaller container, the 2 cms Contains saturated aqueous sodium sulfate solution, so that in the large vessel one relative humidity of 93.3% prevails. The large glass vessel is closed, Left at room temperature for 48 hours and then in one for 24 hours Oven heated at a temperature of 70 ° C.

The specimens in the untreated paper are after this period of time dull and discolored while the test pieces were impregnated with benzotriazole Paper will have its unchanged gloss.

Example 2 The procedure described in Example 1 is followed, however, such an amount of hydrogen sulfide after the 48 hour heat treatment is introduced into the container so that the air contains 60 X 10-8 parts of H 2S. then the containers are heated in an oven at 50 ° C for 24 hours. The specimens in the untreated paper have slight stains. The specimens in the with In contrast, benzotriazole-impregnated paper shows no changes whatsoever.

Example 3 The experiments according to Examples 1 and 2 are carried out for a further 14 days long continued. The metal coupons in the untreated paper are after this Period of time greatly discolored while the specimens were impregnated in the benzotriazole Show paper its original appearance.

The following examples show the preparation of products according to the invention Packaging materials. Example 4 On a bleached kraft pulp paper a 2% aqueous solution of benzotriazole is sprayed on, whereupon it is air-dried leaves. This gives a packaging material that contains 0.25 g of benzotriazole per 900 cm2 of paper.

Example 5 The paper produced according to Example 14 is on one side provided with a wax coating, which is impermeable to benzotriazole vapors.

Example 6 A 40% strength solution of benzotriazole in isopropyl alcohol is added with water until a concentration of 15% benzotriazole is set a Kraft paper in this solution and then leaves the paper on air dry.

Example ? 10 parts by volume of a 50% strength solution of benzotriazole are mixed in isopropyl alcohol with 90 parts by volume of an aqueous solution containing 12% urea, Contains 121 / o sodium nitrite and 241 / o 2-oxyethylammonium benzoate. Under use the mixture obtained is impregnated into a kraft pulp paper by dipping and then air dried.

EXAMPLE 8 A transparent wrapping material according to US Pat. No. 2829080 is produced by providing a base sheet of polyethylene glycol terephthalate with a top layer of polyvinyl acetate which, based on its weight, is 150 / a of a mixture of equal parts of pelargonic acid and benzoic acid and 5% benzotriazole contains. EXAMPLE 9 Kraft pulp paper is immersed in an aqueous solution of 50% diisopropylamine nitrite and 2% benzotriazole and then dried in air.

Claims (5)

Claims: 1. Packaging material impregnated with a vapor phase inhibitor, in particular in the form of a web, for objects made of non-ferrous metals, with the exception of copper and copper alloys, to protect against discoloration and corrosion, thereby characterized in that the packaging material is benzotriazole as a vapor phase inhibitor contains. 2. Packaging material according to claim 1, characterized in that it a well-known vapor-phase corrosion inhibitor for the simultaneous protection of ferrous metals for the ferrous metals. 3. Packaging material according to claim 1 and 2, characterized in that it consists of a transparent organic base layer, which is impermeable to the vapors of the benzotriazole, and one transparent organic cover layer that contains the benzotriazole and is permeable to its vapors is, exists. 4. Packaging material according to claim 1 to 3, characterized in that that it contains about 5 to 10 percent by weight benzotriazole. 5. Packaging material according to claim 1 to 3 ,. characterized in that each 900 cm2 of the band-shaped Packaging material about 0.1 to. about 2 g, especially about 0.2 to about 0.05 g, benzotriazole are incorporated.