SU1198133A1 - Method of manufacturing relief articles by electroplating - Google Patents

Abstract

METHOD OF TALVANOPLASTIC MANUFACTURING OF RELIEF PRODUCTS, mainly figured jewelry, including two-stage electrolytic metal deposition and matrix removal between stages, characterized in that, in order to expand the range of products obtained from a single matrix, in the first stage, 10-20% of the finished thickness is first deposited product, after which, by deformation, the preform is given a predetermined shape, and in the second, a metal layer is deposited to a thickness of 30-60% of the finished product, and the deformation is repeated by raising a and lowering the relief elements, after which the metal layer is increased to a given thickness. from €

Description

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Exclusion refers to electroplating, in particular, to electroforming the manufacture of complex bulk items, and can be used in the manufacture of jewelery.

The aim of the invention is to expand the range of products, semi-4aet-fax from one matrix.

The essence of the invention is that in the manufacture of openwork jewelry, first a layer of metal corresponding to 10-20% of the finished product thickness is electrolytically deposited on the matrix, after which the matrix is separated and the deformed billet is given a given shape, then the metal layer is deposited to a thickness by 30-60% of the thickness of the finished product, and the workpiece is deformed by raising and lowering the relief elements and then increasing the metal layer to a predetermined thickness, and it is advisable to deposit the last metal layer at a flat current, close to the limit, i.e. in the mode of dendrite formation, which gives the product a kind of decorative appearance.

Such a stepwise implementation of the method allows, when using a single flat matrix, to obtain openwork jewelry of various reliefs, including three-dimensional, with different alternation of elements of the pattern.

P-im im To manufacture a C-shaped bracelet made of copper on a matrix that has an art lattice pattern, which contains, besides the lattice base, free elements of the pattern, which are made, for example, in the form of discs with a diameter of 0.8-1.5 mm, connected to the lattice base by stripes or sections contacts with a width of 0.3-0.5 mm., after preliminary preparation, the preparation of the bracelet is 0.05-0.1 mm thick. The buildup is carried out in a copper sulfate bath containing 200-250 g / l of copper sulfate (CuSO.-5HjO) and 50-70 g / l of sulfuric acid, at a current density of 1-2 A / dm. Then, the billet is separated from the matrix and, by deforming the billet configuration, a C-shaped convex shape of the bracelet is created, close to the surface of the 3-axis allipsoid, allipsoid rotation or buckthorn. Mesh elements

981332

the artistic grid of the base is thus thinned, increasing the distance between them.

The next operation is the pre-growing of the metal to a thickness of .25-0.3 mm. Due to the preliminary dilution of the lattice pattern and bilateral metal deposition on the workpiece, the overgrowing of the interstitial spaces (i.e., holes) of the mesh preform occurs much slower than when the metal is deposited on a flat matrix. Pre-growing facilitates the subsequent 5-dimensional selective deformation of the relief, since with a small thickness of the workpiece, the deformation of the relief can distort the shape of the part.

After annealing, which removes the internal stress and increases the plasticity of the material, the relief of the workpiece is deformed by raising or lowering the elements of the openwork art grid, and 25 also by selective bending in

the outer (less often to the inner) side of the free elements of the pattern, filled out, for example, in the form of disks with a diameter of 0.8-1.5 mm, connected to the base of the lattice with stripes of 0.3-0.8 mm wide or only on tangency areas of the same width.

The final rearing is made from an electrolyte of the following composition:

 Copper sulfate, g / l 200-250 Sulfuric acid, g / l 60-70 Brightening salt additive

LTI-VANGUARD, ml / l 4-6

Sodium chloride, ml / l 0.04-0.06 The precipitation is carried out with vigorous stirring of the electrolyte using sparging. air and rocking parts at a current density of 5 8 A / dm2.

50 When deposited on this (limiting in current density) mode, close to the mode of dendritogenesis, the protruding relief elements of the deformed workpiece grow more than 55 intensively, creating a peculiar one. decorative appearance. The discs of free elements, bent to the outer side of the preform, are the 3 most prominent elements, they receive the most intensive buildup of metal and they acquire a spheroidal shape. The pattern formed by the system of spheroidal elements resembles a large grain, which is distinguished by the peculiar play of light characteristic of spheroidal dendrites. During the final growing, the thickness of the workpiece is adjusted to 0.5-2 tm, depending on the specific product. After electroplating, a decorative coating is applied to the bracelet, for example, lacquer, electroplating (black nickel, precious metal a., Etc., or vacuum titanium nitride). The advantage of the proposed method is a significant increase in the decorativeness of complex-relief products while expanding the possibility of obtaining volumetric and non-identical products with the help of identical flat matrices. This makes it possible to use the method for manufacturing a wide range of original jewelry.

Claims (1)

METHOD OF ELECTRIC PLASTIC PRODUCTION OF RELIEF ITEMS, mainly shaped jewelry, including two-stage electrolytic deposition of metal and matrix removal between stages, characterized in that, in order to expand the range of products obtained from one matrix, 10-20% of the finished product thickness is first deposited on the first stage then, by deformation, they give the workpiece a predetermined shape, and on the second a metal layer is deposited to a thickness of 30-60% of the finished product and re-deformation is carried out by lifting and lowering anija relief elements, after which building up a metal layer to a predetermined thickness. _Q <2 (A co>