UA20148U - Metallic binder for abrasive tool - Google Patents

Abstract

A metallic binder for abrasive tool contains copper, tin, calcium fluoride (CaF2), nickel.

Description

Description of the invention

The useful model refers to the field of obtaining composite materials, namely to metal connections and 2 can be used in a grinding and cutting tool when processing difficult-to-process materials, in particular, natural stone (granite, marble, etc.), as well as building materials ( concrete, reinforced concrete, slate, tile, brick, etc.).

The closest in technical essence to the proposed metal connection is known | see patent of Ukraine Mo70825A, 0 IPC B2403/06, publ. Byul Mo10, 15.10.2004|, containing the following components, wt. 9o:

Sat 5...20

Language 5.15

Order No. 014.18

You are the rest.

Such a metal connection has a number of significant disadvantages: firstly, during the operation of the tool with such a metal connection, it is necessary to use lubricating and cooling fluids (MOF) to cool the tool, otherwise work without using

MOR leads to catastrophic wear of the metal bond of the tool, secondly, the use of MOR leads to a narrowing of the areas of use of the tool, since a number of processing materials are not desirable to interact with MOR due to possible oxidation of their surfaces; thirdly, the use of MOR requires additional mechanisms for supplying them to the cutting zone, which greatly complicates the technical design, fourth, the use of MOR can be fatal during the operation of a tool with such a metal connection, in particular, near live power plants. 29 The basis of a useful model is the task of improving the metal connection for an abrasive tool, in which, due to the introduction of calcium fluoride (Sab 5) and nickel into the metal connection, a reduction in external friction, load in the processing zone, and exclusion of introduction into the zone are ensured processing of MOP and, as a result, the areas of use are expanded and the performance and stability of the tool are increased. co

The specified task is solved due to the fact that calcium fluoride (Sabo) and nickel are added to the metal bond for an abrasive tool containing "Its copper, tin, according to a useful model, with the following ratio of components, wt. 9o: - "c) mi 5.12 sao 3.15 p.m

Zp 7212

You are the rest.

The cause-and-effect relationship between the set of declared features and the technical effects achieved as a result of their implementation is as follows: firstly, the wear resistance and operability of the tool on - with the metal connection is affected by the grinding contact temperature, the decrease of which is possible due to the formation of separation films on the working surfaces of the friction of the tool and the processing material when using calcium fluoride as a solid lubricant, secondly, an important indicator of the performance of the task is to ensure the reduction of the wear of the friction pair of the tool and the processing material, the elimination of sticking of elements, and the increase of processing smoothness when using calcium fluoride and nickel, thirdly, the use of calcium fluoride in the composition of the metal bond as a solid lubricant allows to reduce the load in the contact zone of the tool and the processing material by 15-2095 and to use the tool without additional introduction of lubricant into the processing zone -cooling fluids (MOP) . - The proposed metal bond for an abrasive tool is made as follows: powders of 20 copper, tin, nickel and calcium fluoride are mixed in appropriate proportions, according to a useful model, to ensure optimal physical and mechanical properties of the proposed composite metal bond. Then the resulting mixture is poured into a mold and the composite material is cured under pressure. Such a scheme makes it possible to significantly simplify the technological process of obtaining composite materials, in particular, metal connections of an abrasive tool and provides high strength and resistance to abrasive wear, which, in turn, significantly increases the tool's performance and stability.

Ghani Examples of concrete implementation of the proposed composition.

Example 1.

A metal bond of optimal composition was produced (see table). because would |Zp Mi Sago kwt mg/g kgs/mm 2 opyaryuya 8061bya 0010001» b5 YOU PO PO PO POLON PON NO NO ON 2 |688) 12 5 15 1.1-2.0 0.3 87 -D-

Examples 2, C - for the composition of the metal bond at the limit values of calcium and nickel fluoride and beyond their /p0 limits (examples 4, 5) and according to the prototype, example 6 (see the table) in the same manufacturing conditions.

The change in the composition of the powder metal components was achieved by preparing a separate charge for each sample of the composite bond material.

This makes it possible to obtain and use a metal bond of different composition and hardness in an abrasive tool for processing materials, in particular, natural stone (granite, marble, etc.), as well as building 7/5 materials (concrete, reinforced concrete, slate, tiles, bricks etc.) with a wide range of physical and mechanical properties.

As can be seen from the table, from the analysis of the results of research in laboratory and production conditions, the use of the connection, which is claimed in the abrasive tool, allows to increase its efficiency by 1.3...1.45 times, and stability by 1.5... .2.0 times.

Claims (1)

The formula of the invention Metal bond for an abrasive tool containing copper, tin, which is distinguished by the fact that calcium fluoride (Sag") and nickel are additionally INTRODUCED in the following ratio of components, wt.9o: - mi 5.12 Sago 3.15 Zp 7212 so Si rest. " триигя я " : " " : : pov -- Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2007, M 1, 15.01.2007. State Department of Intellectual Property of the Ministry of Education and "2 of Sciences of Ukraine. In r s - i" name) (in) - ChK" IR e) 60 b5