RU2210489C2 - Composition of hard polishing tool - Google Patents

Abstract

FIELD: manufacture of tools for working natural and artificial stones. SUBSTANCE: composition contains mineral or organic acids or their salts, binder, curing agent and abrasive micropowder. Polyester or phenol formaldehyde or epoxy resins are used as binder. Agent for curing respective resins is used as curing agent. Used abrasive micropowder is micropowder on base of alumina and 3d-metals. EFFECT: enhanced quality of surface polished by means of tool of such composition. 2 tbl

Description

 The invention relates to a tool for processing natural and artificial stone, in particular, is used to produce a solid polishing tool.

 The composition of a solid polishing tool is known (see Orlov AN "Extraction and processing of natural stone", M .: Stroyizdat, 1977, p. 349-350), containing oxalic acid in an amount of 60 wt.%, Sulfur color ( sulfur powder) - 16 wt.%, alumina (powder) - 8 wt.%, liquid bakelite - 16 wt.% and hardener (hydrochloric technical acid).

 However, the known composition of a solid polishing tool does not provide a high quality surface (gloss) of artificial and natural stone (for example, marble and other carbonate-based stones) after polishing, and is also characterized by increased abrasion.

 The presence in the known composition of aluminum oxide and elemental sulfur (sulfur color) with irregular indicators does not allow to obtain reproducible indicators for the gloss of the polished surface, and the presence of a large amount of oxalic acid (60 wt.%), Which is readily soluble in water and easily removed from the product in the polishing process under conditions of supplying water to the stone surface does not provide sufficient wear resistance of the tool and leads to its increased abrasion.

 The technical result of the invention is to reduce abrasion and improve the gloss of the surface of the stone after polishing.

The technical result is achieved in that the composition of the solid polishing tool contains mineral or organic acids, or their salts, a binder, an abrasive micropowder based on alumina and a hardener of resins, while polyester or phenol-formaldehyde or epoxy resins with the corresponding hardeners are used as a binder resins, and as an abrasive powder use abrasive micropowder based on aluminum oxide and 3d metals (iron oxide (III)) (see Russian patent 2109026) in the following ratio ii, wt.%:
Mineral or organic acids or their salts - 20-50
Binder: polyester, or phenol-formaldehyde, or epoxy resins - 20-30
including:
Resin Hardener - 2-3
Abrasive micropowder based on aluminum oxide and 3d metals (iron oxide (III)) - 30-50
The presence of an abrasive micropowder based on aluminum oxide and 3d metals (iron oxide (III)) with a strictly normalized average crystal size in combination with the active component: mineral or organic acids or their salts, taken in a certain mass ratio, ensures reproducibility of the required value shine of the polished surface.

 The reduction in the product of the mass fraction of water-soluble active component (~ 35 wt.%) Compared with the prototype in 1.05-1.3 times to reduce the abrasion of the tool while maintaining high quality polished surface.

 With a decrease in the percentage of the active component below 20 wt. % increases the hardness of the tool, which leads to a deterioration in the gloss of the polished surface, and when its content is above 50 wt.% sharply increases the abrasion of the product.

 When the percentage of the binder is below 20 wt.%, The required tool strength is not achieved, and when its content is more than 20 wt.%, The hardness of the product increases, leading to a deterioration in the gloss of the polished surface.

 When the percentage of abrasive micropowder is less than 30 wt.%, The gloss of the polished surface is reduced, and when its content is above 50 wt.%, The surface treatment time increases to achieve a given gloss value.

 A resin hardener is introduced into the binder to provide the required strength value of the tool.

In the composition of the polishing tool, for example, sulfuric or phosphoric acids can be used as mineral acids, oxalic acid as an organic one, and acid salts of orthophosphoric and oxalic acids such as KH ₂ PO ₄ , K ₂ HPO ₄ or KHN ₂ O ₄ can be used as mineral acids.

 Below in the table. 1 shows the composition of the composition of a solid polishing tool, and in table. 2 shows the effect of the percentage of components on the abrasion of the tool and the gloss of the polished surface.

Manufacturing technology of solid polishing tools. Recipe 1. Take the calculated amount of the active component (oxalic acid), phenol-formaldehyde resin brand BZ-1 with hardener, abrasive micropowder based on aluminum oxide and 3d metal (iron oxide (III)) and mix thoroughly until a homogeneous mass. After mixing, the mixture is laid in a mold and pressed with a specific pressure of 1 MPa. The molded product is dried at a temperature of 70 ^o C for 7 hours

Similar results were obtained using various combinations of other active components and resins, for example, KHS ₂ O ₄ salt and epoxy resin (formulation 2), K ₂ HPO ₄ salt and polyester resin (formulation 3), etc.

 From the table. 2 shows that, in comparison with the prototype, the abrasion of the tool is reduced by 7-28%, and the surface gloss increased by 10-25%. In addition, the use of a new polishing tool will improve the environmental situation at the facility by reducing the content of a water-soluble component in the product (for example, oxalic acid), as well as eliminating sulfur and hydrochloric acid compounds from the composition.

Claims (1)

The composition of a solid polishing tool containing an active component, a binder with a hardener and an abrasive micropowder, characterized in that mineral or organic acids or their salts are used as the active component, and polyester or phenol-formaldehyde or epoxy resins with the corresponding hardener of these resins are used as a binder, and as an abrasive micropowder - abrasive micropowder based on aluminum oxide and 3d metals, in the following ratio of components, wt. %:
Mineral or organic acids or their salts - 20 ÷ 50
Polyester, or phenol-formaldehyde or epoxy resins - 20 ÷ 30
including
Hardener resin - 2 ÷ 3
Abrasive micropowder based on aluminum oxide and 3d metals - 30 ÷ 50

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