RU2094224C1 - Method for treating handicraft stone - Google Patents

Abstract

FIELD: construction technology. SUBSTANCE: this relates to treating stone of medium and low hardness. According to method, stone is procured and is subjected to sawing, grinding, cutting out according to required article, sand-blasting. Ready article is polished. Raw material in the form of lumps of mineral is sawn into strips 15-20 mm thick and is dried at temperature of 20-70 C during 24 h. Material is then covered with warm gluing composition such as epoxy resin or other. Then strip of required thickness is sawn out. Two strips are connected together by their sides not covered with gluing composition, they are ground together and glued to each other by aforesaid composition. Polishing of ready articles is effected by acid-free polishing compounds. Method adds to strengthening of mineral raw material in process of treatment and thus reduces loss of material. EFFECT: high efficiency. 1 cl

Description

 The invention relates to the processing of semi-precious stone, mainly of medium and low strength, and can be used in the development of arrays and the manufacture of jewelry from semi-precious stones related to marble onyx.

Known methods for processing ornamental stones by harvesting raw materials and obtain the finished product of the desired shape and size [1]
Closest to the invention is a method for processing semi-precious stone, including harvesting raw materials by separating pieces of mineral from the rock, sawing and grinding them, cutting the product, grinding, sanding and polishing the finished product [2]
However, the known method is unsuitable for the processing of semi-precious stones having low strength, for example, a mineral of the class of marble onyx, called "symbirate" about the place of its development. Symbircyte is marble onyx deposited in the voids of marl nodules and shells of fossil ammonite mollusks. Staining with hepatitis in combination with mother of pearl shell walls and thin layers of pyrite deposited on them give it a unique pattern and high jewelry quality. However, the structure of calcite aggregates, which compose the mineral mass, has a coarse-crystalline structure, which is why numerous cracks form during the preparation and processing of raw materials.

 The objective of the invention is to reduce the loss of mineral raw materials due to its hardening during processing.

The problem is solved in that in a method for processing semi-precious stone, mainly of medium and low strength, including harvesting raw materials by separating pieces of mineral from the rock, sawing and grinding them, cutting the product, grinding, sanding and polishing the finished product, pieces of mineral are sawn into plates 15 wide 20 mm, dried during the day at a temperature of 20 70 ^o C, cover both surfaces of the plates with an adhesive having a temperature of 40 60 ^o C with the formation of a transparent shiny surface after drying, re-dried the plates during the day in the open air, saw off the plate of the required thickness from each plate, the sides of the two plates formed after gluing, grind, dry and cover with the same adhesive composition, then connect them to each other with clamps and stand until dry, and then carry out the cutting of the product, peeling, sanding and polishing of the finished product, and polishing is carried out with acid-free polishing compounds, while epoxy is used as the adhesive composition yu resin or canadian balm.

 The application of the indicated operations of the method in this sequence in compliance with temperature, time regimes and compositions provides a sufficient degree of hardening of the mineral for processing while maintaining its jewelry qualities.

 The method is carried out during the following sequence of operations.

 1. Harvesting of raw materials. When directly separating pieces of mineral from the rock, chisels with handles are used, striking them with a sledgehammer, because when cracking pieces directly with a hammer in the raw material, numerous cracks appear, which reduces its jewelry quality.

2. Sawing up. Depending on the type of semi-precious stone and its safety, sawing is carried out in various directions: for example, the vein symbirate is sawn in monolithic pieces across the thickness of the vein, while the striped pattern of the vein is better revealed. In cases of cutting large nests of symbiocyte, sawing can be carried out in any direction, depending on what size the workpiece is needed for the product. Ammonite simbircite is sawn in the directions revealing the main pattern of the stone, while the workpiece is cut into plates with a thickness of 15 to 20 mm. This allows you to keep the workpiece in its original shape and pattern, because with thinner workpieces, the symbircytite plates are split along the pearl partitions, crushing and losing thin parts. The prepared plates are dried for 24 hours on a dryer at a temperature of 20 70 ^o C. A higher temperature leads to complete dehydration of the stone and its cracking. Then both surfaces are lubricated with a warm adhesive, for example, diluted epoxy glue or Canadian balsam and left for a day until completely hardened. A hardened and cemented surface is sawn off to the required thickness. The temperature of the adhesive is 40 60 ^o C.

 3. Preparation for the workpiece blank. The plates of ammonite and vein symbircyte impregnated with epoxy glue are ground in such a way that there are no large gaps between them, dried, then glued with epoxy glue and connected with special clamps, which ensures their tight contact.

 4. Cutting the product. The product is cut according to special stencils depending on the model. The drawing on the surface is applied with an aluminum pencil. The workpiece cut on the cutting disc is brought to pencil contours on a diamond grinding cup with powder N 60 100, and then drilled in the right place.

5. Peeling. Peeling, i.e., giving the product a rough shape, is carried out in two stages:
rough grinding, when the product is processed on diamond cups with powder NN 60 100 with grain 400 150 microns; fine grinding is carried out on tablets with powder N 220 with a grain of 60 microns.

 When peeling, the adhesive layer is also removed.

 6. Sending. Sanding sanding with abrasive materials on an elastic basis, for example on a rubber wheel, with a sandpaper cut to its size. In this process, paper is used with silicon carbide deposited on its surface with a grain size of 15 to 1 μm. Since sanding is a dry process, it is necessary to ensure that the stone does not overheat, which can lead to cracking.

 7. Polishing. Products are polished on felt or cotton. Dark varieties of symbircyte are best polished with chromium oxide, light with tin or aluminum oxide. Polishing for jewelery is excluded.

 The use of this method of processing semi-precious stone of low strength can significantly reduce the loss of mineral raw materials during harvesting and processing, while maintaining the high jewelry quality of the finished product.

Claims (2)

1. A method of processing an ornamental stone of predominantly medium and low strength, including harvesting raw materials by separating pieces of mineral from the rock, sawing and grinding them, cutting the product, grinding, sanding and polishing the finished product, characterized in that the pieces of mineral are sawn into plates with a thickness of 15 20 mm, they were dried overnight at 20 - 70 ^o C, coated plates both surfaces an adhesive composition having a temperature of 40 60 ^o C., after drying to form a transparent shiny surface, re-dried in the plate during the day in the open air, a plate of the required thickness is sawed off from each plate, the sides of the two plates that are not covered by the adhesive formed after sawing are ground, dried and coated with the same adhesive, then they are connected to each other with clamps and kept to dry, and then they are cut products, grinding, sanding and polishing of the finished product, and polishing is done with acid-free polishing compounds.  2. The method according to claim 1, characterized in that the epoxy resin or Canadian balm are used as the adhesive composition.