RU2068010C1 - Method of noble metals extraction out of printed plates - Google Patents

Abstract

FIELD: noble metals extraction out of printed plates. SUBSTANCE: method provides for vibration, separation and comminution. Before vibration printed plates are heated up to temperature of solder to separate integral chips from electrical and radio parts. Comminution is exercised by crushing of integral chips bodies. Produced product is subjected additional magnetic separation with separation of noble metals concentrate. EFFECT: increased productivity.

Description

 The invention relates to the metallurgy of noble metals, namely: to the technique of physical (dry) methods of enrichment of secondary raw materials containing noble metals, such as gold, silver and platinum group metals.

 The invention can be used in secondary metallurgy plants for the regeneration of precious metals from depreciation scrap of the electronic industry.

 Currently, waste and scrap from the electronic industry containing precious metals are characterized by an increasing share of organic polymers, ceramics, glass and precious metals (nickel, cobalt, tin, copper, tungsten, etc.). But at the same time, there is a tendency to produce electronic products with a reduced thickness of clad coatings and a sharp decrease in the consumption of precious metals in electronics (due to the miniaturization of electronic components). Thus, the recycled materials coming into processing are becoming poorer in terms of the content of precious metals, and the volume and complexity of the composition of the raw materials are increasing. An example is printed circuits containing polyesters, glass fiber, various mineral fillers, noble, non-ferrous and other metals. In this regard, improved methods of enrichment of secondary raw materials, as well as pyro- and hydrometallurgical methods of processing the obtained concentrates of precious metals are being improved.

 In the processing of electronic scrap, physical (dry) enrichment methods are mainly used, grinding of scrap with subsequent physical separation (screening, magnetic, electrical and air separation) to obtain a concentrate of precious metals, which are then processed by hydro- or pyrometallurgical method. The physical enrichment method is not refining, but it is used as a preliminary stage in the processing of electronic scrap. The advantage of this treatment is the ease with which significant quantities of electronic scrap can be processed. Its disadvantage is that it turns out not one, but several concentrates containing noble metals, which nevertheless must be processed in order to extract the noble metals.

 Therefore, an important problem here is the implementation of physical enrichment so that there is no loss of precious metals.

 Consider the prior art analogues of the invention in order to analyze whether a technical result can be achieved by using them to reduce the loss of precious metals in the processing of electronic scrap, mainly in the form of printed circuits.

 A known method of processing printed circuits in order to extract noble metals (gold and silver) from them (see Meretukov M.A. Orlov A.M. Metallurgy of noble metals. Foreign experience. M. "Metallurgy", 1991, p.309-310 )

 The method includes grinding, air classification, magnetic separation, manual wire selection and separation in a high voltage electrostatic field. As a result, after such processing several concentrates of precious metals are obtained: dust from bag filters of the grinding system and air classification, coils of wire and materials extracted in an electrostatic field. In this case, the extraction of gold into concentrates amounted to 87% and silver 94% of the total mass of scrap, i.e., the loss of gold amounted to 13% and silver 6%, which is significant, especially for gold, values.

 These losses are due to the fact that the whole printed circuit is crushed by this method, namely: a printed circuit board, which is the insulation base of the circuit, on one side of which electrical current conductors are printed by printed circuitry, and on the other are integrated circuits, in which, basically , and contains noble metals, mounted electrical and radio elements connected to electric current conductors through metallized holes in the circuit board by means of solder, i.e., grinding results in large the amount of ground products of complex composition. This creates difficulties in the further extraction of precious metals, and therefore such a variety of different types of separations are used that loss of precious metals with fractions of organic and inorganic materials separated from them is inevitable.

 A known method of extracting precious metals from parts and components of electronic industry structures, including grinding and separation of metals from the obtained product, while the crushed product is subjected to vibration to separate the heavy fraction containing the noble metals from the light, magnetic and electrical separation of the heavy fraction is carried out with the release of concentrate noble metals, followed by its plasma-chemical treatment in vacuum with selective isolation of noble metals by evaporation temperatures (see RF patent N 2001133, class C 22 V 7/00, 11/00, 1991).

 This method, as closest to the invention in terms of essential features, adopted as a prototype.

 In our opinion, its advantage over the analogue is the possibility of selective separation of noble metals from the concentrate by plasma-chemical treatment in vacuum using the evaporation temperatures of these metals. However, the preliminary processing of electronic scrap by this method by physical enrichment (grinding parts and assemblies, vibration, magnetic and electrical separation of the crushed product) has the same drawbacks as the analogue method, i.e., noble metals must be extracted from a large volume of crushed products of complex composition. Hence, there are many different types of separations and, as a result, significant losses of precious metals at the stage of physical enrichment.

 These disadvantages are eliminated, and the necessary technical result is achieved in the invention of the present application. The inventive method of extracting precious metals from printed circuits, includes vibration, magnetic separation and crushing, while, according to the invention, before vibration, the printed circuits are heated to the melting point of the solder, and the vibration is carried out by shaking the printed circuits to separate the integrated circuits, electrical and radio elements from printed circuit boards, after which magnetic separation is carried out with the separation of integrated circuits from electrical and radio elements, and crushing is carried out by crushing the cases of integrated circuits and obtained the second product is subjected to additional magnetic separation with the release of a concentrate of precious metals.

 The inventive method meets all the conditions of patentability.

 Comparison of the essential features of the prototype method and the claimed method revealed that the latter is characterized in that "before vibration, the printed circuits are heated to the melting point of the solder, and the vibration is carried out by shaking the printed circuits to separate the integrated circuits, electrical and radio elements from the printed circuit boards, after which carry out magnetic separation with the separation of integrated circuits from electrical and radio elements, and crushing is carried out by crushing the cases of integrated circuits and the resulting product is exposed m additional magnetic separation with isolation of the concentrate of precious metals. "

 Thus, the claimed method is new, because the prior art does not know the solution with the same sets of essential features, as evidenced by the above analysis of known methods (analogue and prototype).

 The invention proposed for patent examination has an inventive step, because for a specialist it does not follow explicitly from the prior art, i.e., the influence of the transformations prescribed by this invention, characterized by significant features distinctive from the prototype, on the achievement of technical result. Indeed, the patent research carried out by the applicant showed that among the solutions known in world technology and science intended for the processing of electronic scrap, there are no such solutions that, having the distinctive essential features of the proposed method, would already lead to the technical result when used the achievement of which the invention is directed according to the present application.

 The claimed invention is industrially applicable method for processing electronic scrap in all respects of the claimed combination is reproducible; not a single sign of it, nor the method itself as a whole contradicts its use in industry with the achievement of the expected technical result.

 The method is as follows.

Printed circuits consisting of multilayer printed circuit boards, on one side of which electrical conductors are applied by printed wiring, and integrated circuits located on the other side of the circuit boards, which mainly contain precious metals, electrical and radio elements, are placed in a heating device . Heating can be carried out, for example, by radiation, using quartz lamps with nichrome spirals with a power of 2 kW. The printed circuits are heated to a temperature of 250-300 ^o C, at which the solder of the filler metal or alloy used during soldering to fill the metallized holes made in the printed circuit board, in which the electric conductors are connected to integrated circuits, electrical and radio elements, is melted. Then the printed circuits are subjected to vibration by shaking them, which results in the separation of integrated circuits, electrical and radio elements from printed circuit boards. The latter are sent for processing using a conveyor, and integrated circuits separated by shaking, electric and radio elements are transported to magnetic separation. During magnetic separation, the separation of integrated circuits from electrical and radio elements under the influence of a magnetic field on the magnetic metals available in integrated circuits. The magnetic field does not act on non-magnetic electric and radio elements, they are removed from the magnetic separator into the hopper, from where, if necessary, sent for further processing. Integrated microcircuits, consisting of a plastic case and the microcircuit itself, in which noble metals are present in the form of a coating deposited by sputtering or electrochemically, are sent to a crushing device, which is, for example, an aggregate of jaw and roller crushers. In the jaw crusher, the plastic cases of integrated circuits are embrittled, and in the roll crushing of these cases without breaking the integrity of the actual circuits. Then, the resulting mixture is subjected to magnetic separation, in which magnetic microcircuits, which are a concentrate of precious metals, are separated from non-magnetic particles of plastic cases under the influence of a magnetic field. Thus, the precious metal concentrate is recovered from the printed circuits. It should not be subjected to either electrical or air separation, because it is not crushed, which means that there are no conditions for the loss of precious metals. Therefore, the concentrate can be sent to pyro-, hydrometalluric or plasma-chemical processing for the selective selection of each type of noble metal.

 The crushed cases of integrated circuits, if necessary, are transported for additional processing in order to recover from them inclusions of precious metals.

 An advantage of the proposed method for extracting precious metals from printed circuits is the fact that only part of the printed circuit containing precious metals is subjected to processing, and printed circuit boards having a large volume and practically no precious metals are separated and not subjected to grinding at the initial stage.

 Experimental tests of the proposed method have confirmed the achievement of a technical result to reduce the loss of precious metals during the physical enrichment of printed circuits. The degree of extraction of gold in metal concentrate was 92.5%

Claims (1)

 A method of extracting precious metals from printed circuits, including vibration, magnetic separation and crushing, characterized in that before the vibration, the printed circuits are heated to the melting point of the solder, and the vibration is carried out by shaking the printed circuits to separate the integrated circuits, electrical and radio elements from the printed circuit boards, magnetic separation is carried out with the separation of integrated circuits from electrical and radio elements, the integrated circuits are crushed and carried out by crushing the integra lnyh chips, the resultant product is subjected to an additional magnetic separation with separation of the noble metal concentrate.