JP2002338950A - Powder composition and polishing method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a powder composition and to provide a method for polishing stone. SOLUTION: A powder composition and a method for polishing stone, especially, granite are provided. The composition comprises 10-40 wt.% stannic oxide particles having a mean particle diameter (D50) of 1-10 μm and 60-90 wt.% stainless steel powder having a bulk density of 4.5-5.0 kg/dm<3> and a particle diameter of below 0.5 mm. The method comprises polishing stone by using the powder composition.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a powder composition and a polishing method, and more particularly, to a powder composition for polishing stones, particularly granite, and a polishing method using the polishing composition.

[0002]

BACKGROUND OF THE INVENTION Compounds and methods for polishing stones are known in the prior art. For example, US Pat.
No. 8598, a mixture of metal oxides, resins and pre-made gels is utilized with abrasive-changing sandpaper to provide a smooth, high gloss finish to cut rough edge stone or marble. A stone polishing method is disclosed.

US Pat. No. 5,104,421 refers to a polishing method and a polishing pad, which comprises an abrasive such as alumina, zirconium oxide, tin oxide, cerium oxide, a kind of water-soluble cellulose ether and a solubilizing agent. It is manufactured with an agent. The above substances are mixed and coated on a sheet-like substrate, and in the polishing process only water is supplied between the rotating polishing pad and the article to be polished.

US Pat. No. 5,462,568 discloses a versatile stone polishing composition comprising an abrasive component and a composition which, when mixed with water, provides a source of Group Ia or Group IIa metal ions.

Further, US Pat. No. 5,551,960 discloses that
Compositions and methods for polishing stones are disclosed. According to this patent, the composition consists of an abrasive composite bound to a substrate, wherein the abrasive particles are dispersed in a binder and used as a suitable abrasive for polishing stones.

[0006] Similarly, US Pat.
A polishing slurry and an abrasive made from the polishing slurry are disclosed. Furthermore, a method for producing an abrasive is disclosed. The polishing slurry and the abrasive made therefrom consist of abrasive particles of at least two grades, a first large grade and a second small grade, the abrasive grade having an intermediate particle size ratio of about 2. The intermediate particle size ratio is equal to the ratio obtained by dividing the intermediate particle size of the large-sized abrasive particles by the intermediate particle size of the small-sized abrasive particles.

[0007]

However, in prior art polishing compositions, the majority of the abrasive particles must be dispersed in the binder and the base material disposed on the pad of the polishing machine. It has the disadvantage that it must be coated on the material. This process is time consuming and costly because the pads must be changed from time to time.

Furthermore, conventional methods of polishing stones, especially granite, involve several steps, about 5 to 7 steps, wherein polishing pads having different abrasive grains of 30 to 3500 microns are used. . In order to obtain a shiny surface again, first of all, a polishing pad with 3500 micron abrasive grains, a polishing pad with smaller abrasive grains in the next step, 30
Polishing pads having 乃至 100 microns are used.
Thus, the prior art requires many polishing steps to obtain a satisfactory polished surface.

Accordingly, there has been a long-felt need for improved polishing methods and compositions for polishing stones, particularly granite, that allow for a faster polishing process. The present invention has been made in view of the above circumstances, and has as its object to provide a powder composition and a polishing method capable of rapidly polishing stones, particularly granite.

[0010]

SUMMARY OF THE INVENTION The present inventor has surprisingly found that a powder composition of stannic oxide and a nickel-iron alloy can be used in a polishing method which comprises only two process steps. Has been found to work well.

Based on this finding, the present invention provides a powder composition for polishing stones, particularly granite, which has an average particle size (D50 microns) of 1 to 10 μm. 40% by weight of the oxide stannic particles, bulk density and 0 of 4.5 to 5.0 kg / dm ^3.
60 to 90% by weight of stainless steel powder having a particle size of less than 5 mm.

A method for polishing stones, especially granite, comprising: a) 10 to 40% by weight stannic oxide particles having an average particle size (D50 microns) of 1 to 10 μm; From 60 to 90% by weight of stainless steel powder having a bulk density of from about 5.0 kg / dm ³ and a particle size of less than 0.5 mm, b) supplying water to said powder composition C) applying the powder composition to the surface of the stone, especially granite, for a time sufficient to obtain a shiny surface.

[0013]

Embodiments of the present invention will be described below. This embodiment comprises 10 to 40% by weight of stannic oxide particles having an average particle size (D50 microns) of 1 to 10 μm, preferably 2.5 to 4.0 μm, and 4.5 to 5.0 kg / dm ³ , preferably 4.
A powder composition having a bulk density of 7 kg / dm ³ and 60 to 90% by weight of stainless steel powder having a particle size of less than 0.5 mm, preferably less than 0.2 mm, is used.

[0014] Preferably, the powder composition of the present embodiment comprises:
20 to 30 wt%, most preferably 25 wt% stannic oxide particles having an average particle size (D50 microns) of 1 to 10 μm, preferably 2.5 to 4.0 μm;
70 to 80% by weight with a bulk density of 4.7 kg / dm ³ and a particle size of 0.2 mm, most preferably 75% by weight
And a stainless steel powder.

When the powder composition of this embodiment is used to polish a granite having a particular color, the composition may contain a colorant or pigment to maintain the color of the granite during polishing. Should be included. The colorants and pigments can be added in amounts up to 20% by weight of the powder composition. For example, the latter powder composition can have the amounts shown in Table 1 below.

[0016]

[Table 1]

The powder composition of the present embodiment is prepared by mixing the two compositions in a mixing vessel according to the above-described formulation for the two compositions. An important property of the powder composition in this embodiment is the particle size of the two compositions in the mixture to be effective in the polishing process.

Preferably, the stannic oxide particles have the following composition.

[0019]

[Table 2]

The stainless steel powder of this embodiment is
It is made from a nickel-iron alloy and has a spherical particle shape. The stainless steel powder is preferably 4.7k
It has a bulk density of g / dm ^3. The particle size of the stainless steel powder is 0.5 mm, preferably 0.3 mm
At least 95% of the powder particles pass through the sieve, as determined by sieving through a sieve.

The powder composition of the present embodiment can be used in a polishing method for polishing stone, particularly granite.

In the first step of this polishing method, in order to horn (polish) or smooth the surface of the granite,
25.4 cm (10 inches) to 50.8 cm (2 inches)
0 inches), preferably a 43 cm (17 inch) pad driver, from 7.6 cm (3 inch) to 12 inch.
Required to hold 3 to 5 small pad holders for a 7 cm (5 inch) metal bonded diamond disc. Preferably, each metal-bonded diamond disk is coated with 5 to 100 micron particles, which refinish or smooth the surface with any size or type of floor machine having a speed of 150 to 300 rpm. Used for

This pad holder has a speed of 150 rpm to 5
It can be mounted on any size floor polishing machine from 25.4 cm (10 inches) to 50.8 cm (20 inches) operating at a speed of 00 rpm. Preferably,
A 43 cm (17 inch) polishing machine operating at 300 rpm is used.

After the granite surface horn in the first step, the powder composition of the present embodiment is sprinkled on the granite floor in the second step, and water is spread on the powder composition. In this case, the ratio is preferably 85 g (3 ounces) of water to 56.7 g (2 ounces) of the powder composition of the present embodiment.

Thereafter, after removing the diamond disc, a white standard pad of nylon or polyester is used by fitting it into any standard floor polishing machine or stone grinder. Subsequently, the powder composition of the present embodiment is provided with 150 to 300 r
It is applied to the floor using a polishing machine with a rotation speed of pm. The purpose of the white pad is to hold the powder in place on the granite.

Next, the surface of the granite is slowly polished for 1-2 minutes per square foot (30.48 square centimeters), which translates into an area of 12 square feet (366 square centimeters) treated for 2 minutes per square foot. Is processed in a total of 24 minutes. During the polish treatment, the floor dries before this two minute period, and polishing is continued again with additional water until a shiny surface appears.

The result of the polishing process is measured with a gloss meter and is 65 ° for a surface treated according to this embodiment.
From 75 degrees can be read. Note that the new granite surface has an average of 85 to 80 degrees, but the granite floor hairline scratched surface is 4 degrees.

Claims (10)

[Claims] 1. A powder composition for polishing stones, in particular granite, comprising from 10 to 40% by weight of stannic oxide particles having an average particle size (D50 microns) of from 1 to 10 μm; 0.0kg / dm ³ bulk density and 0.5m
from 60 to 90% by weight of stainless steel powder having a particle size of less than m. 2. The powder composition according to claim 1, wherein the stannic oxide particles have an average particle diameter (D50 microns) of 2.5 to 4.0 μm. 3. The stainless steel powder of 4.7
The powder composition according to claim 1, having a bulk density of kg / dm ³ and a particle size of less than 0.2 mm. 4. The powder composition according to claim 1, further comprising at least one of a colorant and a pigment in an amount up to 20% by weight of the powder composition. 5. The powder composition according to claim 1, further comprising at least one surfactant. 6. A method for polishing a surface of a stone, in particular of granite, comprising: a) 10 to 40% by weight of stannic oxide particles having an average particle size (D50 microns) of 1 to 10 μm;
A powder composition having a bulk density of ~ 5.0 kg / dm ³ and a particle size of less than 0.5 mm of 60-90% by weight of stainless steel powder; b) supplying water to said powder composition C) applying the powder composition to the stone, in particular the surface of granite, for a time sufficient to obtain a shiny surface. 7. The polishing method according to claim 6, wherein the stannic oxide particles have an average particle diameter (D50 microns) of 2.5 to 4.0 μm. 8. The stainless steel powder comprises 0.2
The polishing method according to claim 6, wherein the polishing method has a particle diameter of less than mm. 9. The actuating step c) is preferably operated at 175-300 rpm and 43
7. The polishing method according to claim 6, wherein the polishing is performed using a standard floor polishing machine having a pad size of from 1 to 51 cm. 10. The method of claim 1, further comprising the step of pre-polishing the surface of the stone, especially granite, before applying the powder composition to the surface, wherein the pre-polishing is preferably operated at 175 to 300 rpm. 7. The polishing method according to claim 6, wherein the polishing is performed using a standard floor polishing machine having a pad size of 43 to 51 cm.