Device and method for reinforcing weathered stone relics by using low temperature plasma to activate calcium hydroxide in carbon dioxide atmosphere

Abstract

The invention provides a device and a method for reinforcing weathered stone relics by using low temperature plasma to activate calcium hydroxide in a carbon dioxide atmosphere. Based on the low temperature plasma physics and the principles of the relics conservation, the invention applies the technology of low temperature plasma to relics conservation, and especially to the reinforcement of weathered stone relics by activating calcium hydroxide. According to the application, using low temperature plasma source loaded with carbon dioxide to active calcium hydroxide can realize the carbonation and precipitation of calcium hydroxide within 1 min-2 min, and reinforce the weathered stone relics. The application has the advantages of safety, high efficiency, non-damage, and no side effects.

Claims

1. A method for reinforcing weathered stone relics by using low temperature plasma to activate calcium hydroxide in carbon dioxide atmosphere, comprising the following steps: (1) removing attachments on a surface of stone relics; (2) dispersing calcium hydroxide in an isopropanol aqueous solution with a volume concentration of about 5%-5.5% to obtain a saturated reinforcement solution, wherein the calcium hydroxide has a particle size of lower than about 6.5 μm; (3) spraying the reinforcement solution obtained in step (2) on a weathered layer of the stone relics; (4) spraying the stone relics sprayed with reinforcement solution obtained in step (3) with cold plasma with a temperature lower than about 50° C. generated from the nozzle of a low temperature plasma source loaded with carbon dioxide; and (5) repeating steps (3) and (4) 10-15 times.

2. The method according to claim 1, wherein in step (4), the low temperature plasma source has a working voltage of 110 V-240 V, a frequency of 50 Hz-60 Hz, and a maximum power of 30 W; conducting steps (3) and (4) once means that the reinforcement takes place once, and the interval between reinforcements is at least 20 minutes.

3. The method according to claim 1, wherein in step (4), the low temperature plasma source has a standard treating distance of about 2 mm-10 mm, and a standard treating width of about 5 mm-20 mm.

4. The method according to claim 1, wherein in step (4), the site sprayed with the reinforcement solution on the stone relics is scanned for 1 min-2 min by using a plasma flame at a nozzle of the low temperature plasma.

5. The method according to claim 1, wherein in step (2), the method for preparing the reinforcement solution comprises: dispersing nano calcium hydroxide or the calcium hydroxide with a particle size of lower than or equal to 6.5 μm in an isopropanol aqueous solution with a volume concentration of about 5%-5.5%, then stirring the system for 2 h-3 h with a stirrer or concussing the system for 2 h-3 h with ultrasonic waves to obtain a saturated solution.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a structure schematic diagram of the device according to the application.

(2) FIG. 2 is the first schematic diagram of adding reinforcement agent.

(3) FIG. 3 is the second schematic diagram of adding reinforcement agent.

(4) FIG. 4 is the first schematic diagram of low temperature plasma source treatment.

(5) FIG. 5 is the second schematic diagram of low temperature plasma source treatment.

(6) FIG. 6 is an observation view of the surface of the weathered stone relic after removing the surface attachments at a magnification of 1000 times.

(7) FIG. 7 is an observation view of the surface of the weathered stone relic after being reinforced 5 times at a magnification of 1000 times.

(8) FIG. 8 is an observation view of the surface of the weathered stone relic after being reinforced 10 times at a magnification of 1000 times.

(9) FIG. 9 is an observation view of the surface of the weathered stone relic after being reinforced 15 times at a magnification of 1000 times.

DETAILED DESCRIPTION OF THE EMBODIMENTS

(10) As shown in FIG. 1, a device for reinforcing weathered stone relics by using low temperature plasma to activate calcium hydroxide in carbon dioxide atmosphere comprises a low temperature plasma source 1, which is provided with a nozzle 2 at the front end, and a carbon dioxide container 4 connected by a connecting pipe 3 at the back end, and is also provided with a power supply connecting line 6 and a grounding line 7 at the back end, wherein the power supply connecting line 6 is connected with a power supply 5, which is provided with a switch, and the carbon dioxide container 4 is provided with a pressure gauge 40 and a valve 41 at the outlet. In the case of several connecting pipes 3, joints 30 are provided between them.

(11) The carbon dioxide container is a carbon dioxide steel cylinder.

(12) A method for reinforcing weathered stone relics by using low temperature plasma to activate calcium hydroxide in carbon dioxide atmosphere, comprising the following steps:

(13) (1) removing the attachments on the surface of stone relics;

(14) (2) dispersing calcium hydroxide in an isopropanol aqueous solution with a volume concentration of about 5%-5.5% to obtain a saturated solution, wherein the calcium hydroxide has a particle size of lower than 6.5 μm;

(15) (3) spraying the reinforcement agent obtained in step (2) on the weathered layer of the stone relics;

(16) (4) spraying the stone relics 8 sprayed with reinforcement agent obtained in step (3) by using the nozzle of a low temperature plasma source loaded with carbon dioxide;

(17) (5) repeating steps (3) and (4) 10-15 times, and conducting steps (3) and (4) once means that the reinforcement takes place once. The interval between two reinforcements is at least 20 minutes: after each reinforcement, the temperature of stone can be changed by 1° C.; the setting of the interval allows the remaining minuscule amount of calcium hydroxide to react with carbon dioxide in the air, ensuring complete carbonation of calcium hydroxide. Moreover, if a plasma source works continuously for a long time such that the gas from carbon dioxide steel cylinder is continuously released, the interface between the gas pipe and the steel cylinder will be frozen due to the reduced temperature after a long time of about half an hour. In view of this, the interval between reinforcements is set to at least 20 minutes.

(18) In step (4), the low temperature plasma source has a working voltage of 110 V-240 V, a frequency of 50 Hz-60 Hz, and a maximum power of 30 W.

(19) In step (4), the low temperature plasma source has a standard treating distance of 2 mm-10 mm, and a standard treating width of 5 mm-20 mm.

(20) In step (4), the plasma generated by the low temperature plasma source is cold plasma with a temperature of lower than 50° C.

(21) In step (4), the site where is sprayed with the reinforcement agent on the stone relics 8 is scanned for 1 min-2 min by using the plasma flame at the nozzle of the low temperature plasma.

(22) In step (2), the method for preparing the reinforcement agent comprises the following steps: dispersing nano calcium hydroxide or the calcium hydroxide with a particle size of lower than or equal to 6.5 μm from Shanghai Macklin Biochemical Technology Co., Ltd in an isopropanol aqueous solution with a volume concentration of 5%-5.5%, then stirring the system for 2 h-3 h with a magnetic stirrer or concussing the system for 2 h-3 h with ultrasonic waves to obtain a saturated solution.

(23) Experimental Verification:

(24) A method for reinforcing weathered stone relics by using low temperature plasma to activate calcium hydroxide in carbon dioxide atmosphere, comprising the following steps:

(25) (1) removing the attachments on the surface of stone relics; the surface of weathered stone relics was observed at a magnification of 1000 times, and the specific observation image was shown in FIG. 6;

(26) (2) dispersing calcium hydroxide in an isopropanol aqueous solution with a volume concentration of about 5% to obtain a saturated solution, wherein the calcium hydroxide has a particle size of lower than about 6.5 μm;

(27) (3) spraying the reinforcement agent obtained in step (2) on the weathered layer of the stone relics, as shown in FIGS. 2 and 3, wherein the reinforcement agent was dropwise added by a dropper due to the small surface of the stone relic used in experimental verification;

(28) (4) spraying the stone relics sprayed with reinforcement agent obtained in step (3) for 1 min by using the nozzle of a low temperature plasma source loaded with carbon dioxide, as shown in FIGS. 4 and 5, wherein the low temperature plasma source has a working voltage of 110 V, a frequency of 50 Hz, and a power of 25 W.

(29) (5) repeating steps (3) and (4), and conducting steps (3) and (4) once means that the reinforcement takes place once; after repeating steps (3) and (4) 5, 10 and 15 times, i.e. after reinforcing stone relics 5, 10 and 15 times, the surface of the stone relics was observed at a magnification of 1000 times, and the specific observation images were each shown in FIGS. 7, 8 and 9.

(30) By comparing FIGS. 6, 7, 8 and 9, it can be seen that:

(31) FIG. 6: the stone relic has a surface with disadvantages of serious deterioration, unevenness, and loose particles;

(32) FIG. 7: after the stone relic was reinforced 5 times by the above method, calcium carbonate crystal is formed on the surface of the sample, and the calcium carbonate fills in the gaps between particles, but the crystal is scatteredly distributed, so that the stone has an improved surface roughness;

(33) FIG. 8: after the stone relic was reinforced 10 times by the above method, the calcium carbonate crystal is increased, the filling is more sufficient, and the crystalline layer of calcium carbonate is uniformly distributed, forming an effective reinforcing layer, so that the stone has a significantly improved surface roughness and increased surface strength, while its color is not significantly changed;

(34) FIG. 9: after the stone relic was reinforced 15 times by the above method, the calcium carbonate crystal is increased more, the filling is complete, and the crystalline layer of calcium carbonate is uniformly distributed, forming an effective reinforcing layer, so that the surface of the deteriorated stone is smooth and obviously strengthened, while its color becomes slightly white.

(35) The above are only the preferred embodiments of the present invention. It should be noted that for those skilled in the art, several changes and improvements can be made without departing from the overall concept of the present invention. These should also be regarded as the protection scope of the present invention.