KR100913151B1 - Method and apparatus of descaling metal using pulse laser-induced shock wave - Google Patents

Abstract

The present invention provides a method for cleaning a metal surface by focusing a pulsed laser on the surface of the metal immersed cleaning liquid to remove impurities from the surface of the metal or to shorten the chemical cleaning process by using shock waves induced in the process of insulating destruction of the cleaning liquid.

When insulation breakdown occurs in the cleaning liquid, a high temperature and high pressure plasma is generated, and a strong shock wave is generated as the plasma is expanded. The generated shock wave removes impurities in the form of particles or films on the metal from the surface or promotes the cleaning of chemicals.

The cleaning method according to the present invention can be applied to the removal of various impurities by changing the type and concentration of the cleaning liquid according to the type of impurities to be removed, and can also remove particulate impurities and organic impurities at the same time, and because it is a wet process, It has the advantage of easy removal of particles by excluding the capillary force between the particles and the surface caused by moisture.

In particular, the present invention can be effectively used to shorten the pickling process for removing impurities generated on the metal surface in the steel manufacturing process.

Pulse laser, plasma, shock wave, pickling process, oxide film

Description

Metal surface cleaning method and apparatus using pulsed laser organic shock wave {METHOD AND APPARATUS OF DESCALING METAL USING PULSE LASER-INDUCED SHOCK WAVE}

1 is a configuration diagram schematically showing a cleaning apparatus for performing a metal surface cleaning method according to the present invention.

Figure 2a is a photograph showing the scale state of the surface when chemically etched the specimen in an aqueous solution of 80%, 18% hydrochloric acid for 15 seconds, Figure 2b is a specimen placed at a depth of 1mm from the surface of 18%, 80 ℃ hydrochloric acid solution It is a photograph showing the scale state of the surface when a laser shock wave is uniformly applied 20 times to 1 cm <2> area for 15 second.

Figure 3 is a graph showing the results according to the present invention using a shock wave induced by a laser in the 18%, 80 ℃ hydrochloric acid aqueous solution only 18%, 80 ℃ hydrochloric acid aqueous solution.

4A to 4C are photographs showing the change of the scale layer when the concentration of the aqueous hydrochloric acid solution at 80 ° C. is changed to 5%, 10%, and 18%, respectively, and a laser shock wave is applied.

Figure 5 is a graph showing the descaling efficiency of the pickling process according to the prior art using an aqueous 18% hydrochloric acid solution and the combined scale removal process according to the present invention using a 10% aqueous hydrochloric acid solution.

* Description of the symbols for the main parts of the drawings *                 

10: laser 12: laser pulse

14: mirror (beam delivery means) 16: beam homogenization means

18: beam expanding means 20: convex lens

21: container 23: cleaning liquid

24: oxide film 25: specimen

27: heater 29: height adjustment micro stage

W: shockwave

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a metal surface cleaning method, and more particularly, to a method for cleaning a metal surface by removing impurities in the form of oxide film or particles existing on the metal surface using a laser.

In general, among the methods of removing impurities in the form of oxide film or particles existing on the surface of an object, there are a large chemical method and a method using a laser.

A typical chemical method is a wet chemical cleaning process. In this process, an acid solution such as hydrochloric acid is used to remove impurities from the surface of the object.

However, wet chemical cleaning processes require a lot of water for the process and can cause environmental pollution from waste water. In addition, the acid used during the process may reduce the quality of the product and has a disadvantage such as long washing time.                         

There are various methods using a laser such as a direct laser irradiation method, a dry laser shock wave method, and a wet method.

Dry laser shock wave method is a method of removing impurities such as fine particles present on the surface of the object after generating the shock wave by using the breakdown effect of air by the laser beam in the dry state.

The liquid film assisted laser cleaning method is a method of cleaning a surface by directly irradiating a laser beam onto an object coated with a thin liquid film. This method uses bubble generation by a laser at an interface between an object and an impurity.

To date, there have been no R & D cases in which laser cleaning technology has been applied to the steel industry. However, laser cleaning technology has been rapidly developed in recent years with the spread of low-cost industrial laser equipment, and it has been replaced by chemical cleaning processes because it is eco-friendly. I'm going.

In particular, hot rolled steel sheets produced in steel mills are finished and rolled at a high temperature of 800 ° C. or higher, and their surfaces are covered with a large amount of scale. The scale of the hot rolled steel sheet is composed of Hematite (Fe ₂ O ₃ ), Magnetite (Fe ₃ O ₄ ), and Wustite (FeO) layered from the surface layer, and the surface damage during cold rolling, as well as the deterioration of plating property and paintability. Should be removed before rolling.

However, the direct irradiation method is difficult to remove the oxide film from the air because the oxidation occurs on the surface of the object during laser ablation process, and the dry laser shock wave method uses the proper distance between the point where the pressure wave is generated and the object. When maintained, high efficiency can be exhibited, and an oxide film having high adhesion to an object has a problem such that it cannot be removed cleanly due to the strong adhesion of the oxide film.

The scale of the hot rolled steel sheet produced in an ironworks is not only strongly attached to the base material with a thickness of approximately 8 to 10 μm, but also oxidized by laser heating in the air, and thus it is difficult to completely remove the scale.

On the other hand, the liquid film assisted laser cleaning is effective for removing particulate impurities, but the effect is not large when the film is strongly attached to an object like an oxide film.

The present invention has been made to solve the above problems, the object is to focus the laser pulse on the surface of the liquid to remove the surface impurities of the metal contained in the liquid by using a shock wave generated inside the liquid metal It is to provide a method for cleaning the surface.

Metal surface cleaning method according to the present invention to achieve the above object comprises the steps of providing a laser capable of emitting a laser pulse; Providing a cleaning liquid; Dipping the metal to be cleaned in the cleaning liquid; Passing a laser pulse emitted from the laser past at least one or more optical elements; And focusing the laser pulses passing through the optical element to focus on the surface of the cleaning liquid to generate a high temperature and high pressure plasma in the cleaning liquid, and to remove impurities on the metal surface with the generated shock waves.

The cleaning method may further include the step of heating the cleaning solution to a predetermined temperature, wherein it is preferable to use an acid solution as the cleaning solution. And the container containing the cleaning liquid can be adjusted to focus the laser pulse on the surface of the cleaning liquid while moving up and down.

The metal surface cleaning method includes a Nd: YAG laser, an excimer laser, a pulsed gas laser (CO ₂ laser, etc.), a high output diode laser, a pulsed solid state laser (Er: YAG, etc.), and a copper vapor laser. Lasers can be used.

The optical element may include a mirror for changing the path of the pulse laser emitted from the laser and a convex lens for condensing while passing through the pulse laser reflected from the mirror, the beam equalizing means for uniformizing the pulse laser; It may further include a beam expanding means for enlarging the pulsed laser.

On the other hand, the present invention is an apparatus for removing impurities on a metal surface using a laser, comprising: a laser capable of emitting a laser pulse; A cleaning liquid container in which the cleaning liquid is stored; Beam transmitting means for reflecting a laser pulse emitted from the laser to change its path; A convex lens for condensing the pulsed laser onto the surface of the cleaning liquid while passing through the pulsed laser reflected from the mirror; A heater capable of heating the cleaning liquid attached to and stored in the cleaning liquid container to a predetermined temperature; And a height adjusting means connected to the cleaning liquid container to adjust the height of the pulsed laser to focus on the surface of the cleaning liquid.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The metal surface cleaning method according to the present invention basically emits a laser pulse from a laser and focuses it on the surface of the cleaning liquid, and removes surface impurities of the metal contained in the cleaning liquid by shock waves generated inside the cleaning liquid.

To this end, first, a laser and a cleaning liquid capable of emitting a laser pulse are provided, respectively, and the metal to be cleaned is immersed in the cleaning liquid.

Lasers capable of emitting laser pulses include Nd: YAG lasers, excimer lasers, pulsed gas lasers (CO ₂ lasers, etc.), high power diode lasers, pulsed solid state lasers (Er: YAG, etc.), and copper vapor lasers. (copper vapor laser) and the like can be used.

It is preferable to use an acid solution as the cleaning solution to immerse the metal, and such an acid solution may be used an aqueous hydrochloric acid solution or an aqueous sulfuric acid solution.

In addition, the acidic solution may be used by heating to a predetermined temperature, it is preferable not to exceed the boiling point temperature at this time.

In the next step, the laser pulses emitted from the laser are reflected off the mirror to change the path as appropriate and then pass the laser pulses through the convex lens.

The convex lens collects the laser pulse passing through it to be irradiated with the cleaning liquid, and alternatively, a curved mirror may be used instead of the convex lens.

It may also pass through beam equalization means or beam expanding means to equalize or enlarge the laser pulse. Preferably, the beam equalizing means and the beam expanding means are sequentially arranged between the mirror and the convex lens.

Next, the laser pulse passing through the convex lens is focused to focus on the surface of the cleaning liquid. At this time, breakdown occurs in the cleaning liquid to generate a high-temperature, high-pressure plasma, and a strong shock wave is generated.

Plasma generated by laser-induced breakdown (LIB) can be heated to temperatures above 10,000 K, increasing ion and plasma pressures from 10,000 to 100,000 bar while emitting visible light. Therefore, the resulting shock wave and the cavitation pressure generated in the fluid act as a scale breaker to remove impurities on the metal surface. In this way, it is possible to remove not only impurities in the form of particles but also impurities in the form of films such as oxide films and organic substances.

In order to focus the laser pulse on the surface of the cleaning liquid, the container containing the cleaning liquid can be adjusted by moving up and down, and at this time, a height adjusting micro stage can be installed at the lower end holding the container to adjust the height more accurately. have.

In the metal surface cleaning method according to the present invention, various impurities can be effectively removed by applying different types and concentrations of cleaning solutions according to the types of impurities to be removed, and as the amount of impurities in the cleaning solution increases, insulation breakdown occurs easily. It is also possible to increase the energy efficiency by adding a large amount of impurities into the cleaning liquid.

In addition, the metal surface cleaning method according to the present invention can efficiently remove the scale of the surface of the low carbon steel in the pickling process, which is a pretreatment of the cold rolling process, when applied to the hot rolled steel subjected to the hot rolling process in steel mills.

1 is a configuration diagram schematically showing an embodiment of a cleaning apparatus for performing a metal surface cleaning method according to the present invention.

Referring to FIG. 1, a metal surface cleaning apparatus according to the present invention basically stores a laser 10 capable of emitting a laser pulse 12, a convex lens 20, and a cleaning liquid that focus the laser pulse 12. It is comprised including the washing | cleaning liquid container 21 used.

A mirror (beam delivery means) 14 is installed between the laser 10 and the convex lens 20 to reflect the laser pulse 12 emitted from the laser 10 and to change the path of the convex lens 20 appropriately. To pass.

On the path of the laser pulse 12 between the mirror 14 and the convex lens 20, beam homogenizing means 16 and beam expanding means 18 may optionally be additionally installed.

In addition, a heater 27 is installed at the lower end of the cleaning liquid container 21 to heat the stored cleaning liquid 23 to a predetermined temperature, and a height adjustment micro stage 29 is installed at the lower end of the cleaning liquid container 21 to provide the heater 27. Adjusting the height allows the focus of the laser pulse 12 to be concentrated on the cleaning liquid surface.

Hereinafter, the cleaning effect by the metal surface cleaning method and the conventional cleaning method according to an embodiment of the present invention was compared.

Experimental Example 1

In the experiment, a Q-switched Nd: YAG laser (manufacturer: Continuum, model: Surelite II-10), which pulses a full width at half maximum (FWMH) of 5 ㎱ at a laser wavelength of 1064 nm, was used. After heating, the laser pulse was focused on the hydrochloric acid aqueous solution to cause breakdown.

First, the conventional method of dipping in 18% hydrochloric acid aqueous solution (comparative example) and the method (example) according to the present invention with the addition of the laser pulse shock wave effect were compared in the same manner as the pickling process of the existing steel mill.

Figure 2a is a 36 times magnification of the area of 1cm 2 of the specimen during the cleaning process, showing the scale state of the surface when the chemically etched for 15 seconds in an aqueous solution of 80%, 18% hydrochloric acid. FIG. 2B shows the surface when the specimen was placed at a depth of 1 mm on an aqueous 18%, 80 ° C. hydrochloric acid solution and evenly applied a laser shock wave 20 times in an area of 1 cm 2 for 15 seconds.

Comparing FIG. 2A and FIG. 2B, it can be seen that many black scales are removed under the influence of the shock wave.

FIG. 3 is a graph comparing the results obtained by removing only the scale with an aqueous solution of 80% hydrochloric acid at 18% (comparative example) and a process (example) using a shock wave induced by a laser in aqueous solution at 18% with 80 ° C hydrochloric acid. It can be seen that the content of oxygen element is more rapidly reduced in the composite process using. Therefore, the cleaning method according to the present invention can obtain a much higher descaling efficiency than the conventional pickling process.

Experimental Example 2

Next, the effect of laser breakdown effect on the concentration of hydrochloric acid solution used as cleaning solution was compared.

Figures 4a to 4c shows the change in the scale layer when the concentration of 80 ° C hydrochloric acid aqueous solution is changed to 5%, 10%, 18% respectively and a laser shock wave is applied.

Figure 5 is a graph showing the descaling efficiency of the pickling process according to the prior art using an aqueous 18% hydrochloric acid solution and the combined scale removal process according to the present invention using a 10% aqueous hydrochloric acid solution. Oxygen element amount is lower in the combined pickling process using a laser-induced shock wave than the conventional process of removing the scale with only 18% hydrochloric acid aqueous solution. Therefore, it can be seen that the combined pickling process using the laser shock wave according to the present invention exhibits higher scale removal efficiency than the conventional process.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited thereto, and various modifications and changes can be made within the scope of the claims and the detailed description of the invention and the accompanying drawings. Naturally, it belongs to the scope of the invention.

As described above, according to the metal surface cleaning method using the pulsed laser shock wave according to the present invention, by focusing a laser pulse on the surface of the cleaning liquid to generate a shock wave inside the cleaning liquid, as well as an oxide film, organic matter as well as particles in the form of impurities attached to the metal surface It is possible to efficiently remove impurities in the form of a film.

In addition, by combining the laser cleaning method and the chemical cleaning method, the process time can be shortened, and the cleaning can be performed even in a low concentration cleaning liquid (acid solution), thereby reducing the environmental pollution. In addition, it is possible to remove particulate impurities and organic impurities at the same time, and because it is a wet process, it is possible to easily remove the particles by eliminating the capillary force between the particles and the surface caused by moisture in the air.

Claims (10)

In the metal surface cleaning method for cleaning the metal surface using a laser, Providing a laser capable of emitting a laser pulse; Providing a cleaning liquid; Heating the cleaning solution; Dipping a metal to be cleaned in the cleaning liquid; Passing a laser pulse emitted from the laser past one or more optical elements; And Focusing the laser pulse past the optical element to focus on the surface of the cleaning liquid to generate a high temperature and high pressure plasma in the cleaning liquid and removing impurities on the surface of the metal by the shock wave generated thereby; Metal surface cleaning method comprising a. delete The method of claim 1, The cleaning solution is a metal surface, characterized in that the acid solution. The method of claim 3, wherein And moving the vessel containing the acidic solution up and down to focus the laser pulse on the surface of the acidic solution. The method of claim 1, The laser is any one of Nd: YAG laser, excimer laser, pulsed gas laser, high power diode laser, pulsed solid state laser, copper vapor laser using any one of the methods. The method of claim 1, The metal surface cleaning method, characterized in that the hot rolled steel has undergone a hot rolling process. The method of claim 1, wherein the optical element A mirror for changing the path of the pulsed laser emitted from the laser; And Convex lens condensing while passing through the pulsed laser reflected from the mirror Metal surface cleaning method comprising a. The method of claim 7, wherein And the optical element further comprises beam equalization means for equalizing the pulse laser. The method according to claim 7 or 8, And the optical element further comprises beam expanding means for enlarging the pulsed laser. delete

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