PL220763B1 - The manner of destruction of data carriers, especially computer magnetic disks - Google Patents

Description

Description of the invention

The subject of the invention is a method of destroying data carriers including computer magnetic disks, which make it impossible to read the data later.

Deleting data from the operating system level only leads to a small change of a certain fragment of the data structure saved on the disk, so that most of the information is left intact, and therefore it is possible to restore using programs available on the market, not to mention the capabilities of specialized companies , dealing with data recovery. Therefore, in order to irreversibly delete data, it is necessary to use specialized hardware or software. There are known and used methods of deleting program data, consisting in multiple overwriting of sectors containing information with random numerical sequences. The software deletion method is based on the use of an application specifically designed to erase data, and the condition for its effectiveness is the efficiency of the medium. Data deletion programs work by overwriting the data to be deleted. As a result of information being overwritten, they are permanently removed from the medium. Their reading is not possible even in specialized data recovery laboratories. Each disk is subjected to data erasure in several cycles, overwriting of the disk surface up to 35 times is used.

Physical methods of destroying data stored on computer carriers are also known and used, including, inter alia, peeling the active layer, i.e. the proper layer responsible for data storage, from the surface of the carrier. Such a method is based on the device known from the Japanese patent application JP2004326997, in which the knife blade directed at the surface of the disc, after applying pressure, cuts the description layer together with the protective-reflective layer of the disc.

There are also known methods consisting in thermal destruction of the carrier, e.g. by means of electromagnetic waves such as microwaves. From the US patent application No. US 2004126450 it is known to use electromagnetic radiation to destroy data stored in a device that includes a data storage region and a conductive region. The method described in this invention involves destruction with electromagnetic radiation, such as microwave radiation, which induces a current flow in the conductive layer of a data storage disk. The generated temperature changes the physical properties of the part of the region that stores data on the disk.

From the US application description No. US2001002297, there is known a method of destroying a data carrier, e.g. a memory disk, provided with a pyrotechnic layer which is detonated to destroy data on the data carrier. According to this method, detonation is initiated with an electric detonator.

Still other known methods involve crushing a disk storage unit with an embedded hard disk carrier, such as described in Japanese Patent Application JP2005085412, wherein the hard disk device is crushed with its base by a pressure system and the magnetic disk is crushed in the form of a hard disk. device being destroyed is deformed so that the data on it is impossible to read.

The method of destroying data carriers including computer magnetic disks according to the invention is based on the fact that the hard disk platters, which are round plates, made of aluminum or its alloys, covered with a thin, polished ferromagnetic layer made of ferrite materials and secured with a protective layer, are characterized by The hard drives, when removed from the hard drive case, are cut into small pieces, preferably into strips about 10 mm wide, and then added to an aqueous solution of a pulping compound selected from the group consisting of:

a) an aqueous solution of sodium hydroxide with a concentration of 20-50% (m / m), at a temperature of 60-100 ° C, or

b) an aqueous solution of hydrochloric acid with a concentration of 10-36% (m / m), at a temperature of 20-100 ° C, or

c) an aqueous solution of sulfuric acid (VI) with a concentration of 10-60% (m / m) at a temperature of 20-100 ° C, and as a result of the digestion of aluminum or its alloys, solutions of sodium tetrahydroxy aluminate or aluminum hydroxide or sulphate are obtained, respectively ( VI) aluminum, then the ferromagnetic layer, in the form of thin leaves which has not dissolved, is separated from the solution and introduced into aqua regia, in which it dissolves completely.

PL 220 763 B1

According to the invention, the sodium tetrahydroxyaluminate solution obtained by reacting aluminum with sodium hydroxide is used for useful products, preferably as a coagulant for coagulation of sewage sludge.

The remaining acid salt solutions are disposed of in a sewage treatment plant.

The gaseous reaction products containing hydrogen and nitrogen oxides, after dilution with nitrogen, are directed to the atmosphere.

Preferably, the ferromagnetic layer is also dissolved using aqua regia, which is a mixture of concentrated hydrochloric acid [36% (m / m)] and nitric acid [65% (m / m)] in a volume ratio of 3: 1, at a temperature of 30- 100 ° C.

The advantage of the method is the complete destruction of the medium with the data placed on it and the elimination of any possibility of reading the data. The method of deleting data stored on computer hard drives is especially useful in cases including; transferring a computer to another user, selling a used company computer, replacing a defective hard drive or computer failure. The method is intended especially for those computer users whose information, such as personal data of employees, payroll, correspondence, payment card and account numbers, invoices, lists of customers and contractors, internal reports, reports, projects, signature patterns, must be permanently deleted. from all information carriers.

The subject matter of the invention is explained in more detail in the working examples.

P r z k ł a d I

5.2 kg of 40% (m / m) aqueous sodium hydroxide solution and 40 hard disk plates are introduced into the reactor made of acid-resistant steel or glass, equipped with a stirrer, steel basket, exhaust system, nitrogen dosing system and heating system, consisting of round plates 3.5 inches in diameter, cut into strips approximately 10 mm wide. The agitator, container heating, nitrogen blowing and the exhaust system are turned on. The digestion reaction of aluminum is carried out at a temperature of about 80 ° C until the aluminum layer of the hard discs is completely dissolved. The agitator is then disconnected and the basket containing the undissolved ferromagnetic layer leaves is removed. A solution containing sodium tetrahydroxyaluminate is used as a coagulant. The leaves are transferred to a glass reactor with a stirrer, exhaust system, nitrogen dosing system ₃ and a heating system containing 500 cm ³ of aqua regia, prepared from an aqueous solution of hydrochloric acid [36% (m / m)] and nitric acid (V) [65% (m / m)] in a volume ratio of 3: 1.

Dissolution of the ferromagnetic layer is carried out with the stirrer turned on at a temperature of about 60 ° C. The reaction solution is directed to the sewage treatment plant.

P r z x l a d II

7.0 kg of 20% (m / m) aqueous hydrochloric acid solution and 10 plates of hard disks are introduced into the reactor made of acid-resistant steel or glass, equipped with a stirrer, steel basket, exhaust system, nitrogen dosing system and heating system, consisting of round plates 3.5 inches in diameter, cut into strips approximately 10 mm wide. The agitator, container heating, nitrogen blowing and the exhaust system are turned on. The digestion reaction of aluminum is carried out at a temperature of about 50 ° C until the aluminum layer of the hard discs is completely dissolved. The agitator is then disconnected and the basket containing the undissolved ferromagnetic layer leaves is removed. Leaves transferred to a glass reactor with a stirrer, system exhaust, influe ₃ dem dosing of nitrogen and warm up system, containing 200 cm ^{3 of} aqua regia, prepared from an aqueous hydrochloric acid solution [36% (m / m)] and nitric acid (V) [65 % (m / m)] in a 3: 1 volume ratio.

The dissolution of the ferromagnetic layer is carried out with the stirrer turned on at a temperature of about 80 ° C. The reaction solutions are directed to the sewage treatment plant.

P r x l a d III

9.0 kg of 40% (m / m) aqueous solution of sulfuric acid (VI) and 10 plates are introduced into the reactor made of acid-resistant steel or glass, equipped with a stirrer, steel basket, exhaust system, nitrogen dosing system and heating system. hard disks, which are round plates 3.5 inches in diameter cut into strips approximately 10 mm wide. The agitator, container heating, nitrogen blowing and the exhaust system are turned on. The digestion reaction of aluminum is carried out at about 70 ° C until the aluminum layer of the hard discs is completely dissolved. The agitator is then disconnected and the basket containing the undissolved ferromagnetic layer leaves is removed. The leaves are transferred to a glass reactor with a stirrer, exhaust system, system

GB 220 763 B1 _three dosing of nitrogen and warm up system, containing 200 cm ^{3 of} aqua regia, prepared from an aqueous hydrochloric acid solution [36% (m / m)] and nitric acid (V) [65% (m / m)] at a volume ratio 3: 1.

The dissolution of the ferromagnetic layer is carried out with the stirrer turned on at a temperature of about 90 ° C. The reaction solutions are directed to the sewage treatment plant.

Claims (5)

A method of destroying data carriers including computer magnetic disks, consisting of round plates made of aluminum or its alloys, covered with a thin ferromagnetic layer of ferrite materials and protected with a protective layer, characterized in that the plates of hard disks, after being removed from the hard disk casing, are cut into fine pieces, preferably about 10 mm wide strips, and introduced into an aqueous solution of a pulping compound selected from the group consisting of: a) an aqueous solution of sodium hydroxide with a concentration of 20-50% (m / m), at a temperature of 60-100 ° C, or b) an aqueous solution of hydrochloric acid with a concentration of 10-36% (m / m), at a temperature of 20-100 ° C, or c) an aqueous solution of sulfuric acid (VI) with a concentration of 10-60% (m / m) at a temperature of 20-100 ° C, and as a result of the digestion of aluminum or its alloys, solutions of sodium tetrahydroxy aluminate or aluminum hydroxide or sulphate are obtained, respectively ( VI) aluminum, then the ferromagnetic layer, in the form of thin leaves which has not dissolved, is separated from the solution and introduced into aqua regia, in which it dissolves completely. 2. The method according to p. 3. The method of claim 1, characterized in that the ferromagnetic layer of magnetic discs is dissolved using aqua regia, which is a mixture of concentrated hydrochloric acid [36% (m / m)] and nitric acid (V) [65% (m / m)] in a volume ratio of 3 : 1, at a temperature of 30-100 ° C. 3. The method according to p. The process of claim 1, wherein the sodium tetrahydroxyaluminate solution obtained by reacting aluminum with sodium hydroxide is used as a coagulant for coagulating the sludge. 4. The method according to p. A process as claimed in claim 1, characterized in that the acid salt solutions obtained as a result of digestion are utilized in a sewage treatment plant. 5. The method according to p. The process of claim 1, wherein the gaseous reaction products containing hydrogen and nitrogen oxides, after dilution with nitrogen, are directed to the atmosphere.