(19)
(11)EP 3 670 628 A1

(12)EUROPEAN PATENT APPLICATION

(43)Date of publication:
24.06.2020 Bulletin 2020/26

(21)Application number: 19214317.0

(22)Date of filing:  07.12.2019
(51)International Patent Classification (IPC): 
C09K 3/14(2006.01)
B24D 3/34(2006.01)
B24D 3/14(2006.01)
B24D 18/00(2006.01)
(84)Designated Contracting States:
AL AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HR HU IE IS IT LI LT LU LV MC MK MT NL NO PL PT RO RS SE SI SK SM TR
Designated Extension States:
BA ME
Designated Validation States:
KH MA MD TN

(30)Priority: 20.12.2018 CZ 20180726

(71)Applicant: J. E. Purkyne University in Usti nad Labem
40096 Usti nad Labem (CZ)

(72)Inventors:
  • HOLESOVSKY, Frantisek
    41113 Trebenice (CZ)
  • CERNY, Jan
    40331 Usti nad Labe, (CZ)

(74)Representative: Kratochvil, Vaclav 
Patent and Trademark Office P.O. Box 26
295 01 Mnichovo Hradiste
295 01 Mnichovo Hradiste (CZ)

  


(54)ABRASIVE MIXTURE FOR GRINDING WHEELS AND METHOD OF ITS PRODUCTION


(57) The invention relates to a mixture for abrasive grinding wheels, which comprises 12 to 20 wt. % abrasive grain aluminum oxynitride, 62-72 wt. % ceramic binder, 12 to 18 wt. % of globular corundum with a marbles size of 5 to 100 µm and 2 to 5 wt. % potato starch. It further relates to a process for the production of this abrasive mixture, wherein the mixture is mixed and moistened and subsequently compressed at a pressure of at least 4 kN, then dried at 300-360 °C for 60-90 minutes and then fired at 700 °C. up to 790 °C for 45 to 80 minutes.


Description

Technical field



[0001] The invention relates to the composition of a ceramic-based mixture for forming a thin abrasive layer on metal discs and to a way for its production.

Background art



[0002] Ceramic mixtures for grind wheels are currently produced mainly for monolithic grinding wheels. Especially to ensure their grinding strength. The mixtures are based on the classical composition of abrasive grain, ceramic binder, additives. The additives serve to create the porosity and processability of the mixture. The same mixtures are used for thin-film discs with a grain of polycrystalline diamond and cubic boron nitride. These mixtures require high production temperatures during binder firing and do not ensure more regular grain distribution. These mixtures are not used for thin layers of other abrasive materials.

Summary of invention



[0003] The above shortcomings are largely removed by the abrasive mixture for the grinding wheels of the present invention. Its essence is that the mixture contains 12 to 20 wt. % aluminum oxynitride abrasive grain, 62 to 72 wt. % of ceramic binder, 12 to 18 wt. % globular corundum with a 5 to 100 µm marbles size and 2 to 5 wt. % potato starch.

[0004] A further aspect of the invention is the way for the production of the abrasive mixture as described above. In this process, a mixture of 12 to 20 wt. % abrasive grain aluminum oxynitride, 62-72 wt. % ceramic binder, 12 to 18 wt. % of globular corundum with a marbles size of 5 to 100 µm and 2 to 5 wt. % potato starch, is mixed and moistened and subsequently compressed at a pressure of at least 4 kN, then dried at 300 to 360 °C for 60 to 90 minutes, followed by firing at 700 to 790 °C for 45 to 80 minutes.

[0005] The essence of the solution is to create a mixture with modern abrasive grain - Abral - aluminum oxynitride, microcrystalline corundum, Cubitron, which is bonded by a low-temperature ceramic binder. In addition to these components, a mixture of globular corundum with a marbles size of 5 to 100 µm. This corundum ensures a more regular grain distribution while contributing to abrasive material removal and reducing surface roughness. The uniform size of corundum balls will increase the regular spacing between grains and thus the quality of the surface. The binding strength is provided by a ceramic binder which is fired to achieve low temperature strength of about 700 °C. Other components ensure above all the porosity of the wheel and its easy manufacture. The mixture can also be applied in a binder of artificial resin.

[0006] This solution has the following advantages:
  • Improvement of the quality of the grinded surface.
  • Improvement of the roughness of surface.
  • Increase of the regularity in grain distance.
  • Reduction of firing energy consumption.
  • Material and energy savings are achieved when using a low layer abrasive mixture on metal disc of the grinding wheel.
  • The abrasive mixture can form a low layer of abrasive with a binder on the metal disc of the grinding wheel.
  • According to the desired density of the abrasive mixture the abrasive mixture may be molded in a wide range of compression pressures.

Example of the invention realization



[0007] The mixture formed by 15 wt. % abrasive grain Abral, about 67 wt. % ceramic binder 44FK, 15 wt. % of globular corundum and 3 wt. % potato starch is mixed to maximum homogeneity, moistened and subsequently pressed in the pressing tool at a pressure of 5 kN or higher. Subsequently, drying is carried out at a temperature of 300 to 360 °C for 60 to 90 minutes depending on the size of the molding, and at a temperature of 700 to 730 °C, firing for 45 to 80 minutes to obtain the final strength of the pressed layer for the metal disc. Using a mixture, a surface roughness value Ra of 0.13 to 0.22 µm was achieved at a grinding wheel speed of 25 m.s-1, which is a very low speed. As the speed increases, the surface roughness significantly improves.

Industrial applicability



[0008] The solution is applicable to abrasive wheels in ceramic binder with a layer thickness of 5 mm or more as well as monolithic grinding wheels. Metal discs with 5 to 30 mm abrasive coatings save energy, material and waste during production and use, and have a positive environmental impact against monolithic tools. Thanks to the higher grain regularity, the mixture ensures better roughness of the surface. As a result, the previous surface treatment operation can be shortened or omitted, saving time and production costs.


Claims

1. Abrasive mixture for grinding wheels, characterized in that it contains 12 to 20 wt. % abrasive grain aluminum oxynitride, 62-72 wt. % ceramic binder, 12 to 18 wt. % of globular corundum with a marbles size of 5 to 100 µm and 2 to 5 wt. % potato starch.
 
2. The way of the production of the abrasive mixture according to claim no. 1, characterized in that the mixture comprises 12 to 20 wt. % aluminum oxynitride abrasive grain, 62 to 72 wt. % ceramic binder, 12 to 18 wt. globular corundum having a marbles size of 5 to 100 µm; up to 5 wt. % potato starch is mixed and moistened and subsequently pressed at a pressure of at least 4 kN, then dried at 300 to 360 °C for 60 to 90 minutes and then fired at 700 to 790 °C for 45 to 80 minutes.
 





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