CN112451156A - Method for physical noninvasive tooth beautifying and whitening veneering by adopting ceramic block prosthesis material - Google Patents

Abstract

The invention discloses a method for physically carrying out non-invasive cosmetic whitening veneering on teeth by adopting a ceramic block restoration material, which can quickly finish the tooth whitening operation on the premise of not intervening in the oral cavity of a human body and generating no wound, and compared with the existing porcelain tooth whitening technology, the method can directly carry out whitening and repairing on the upper 8 teeth and the lower 8 teeth cosmetic area on the surface layer of the enamel without grinding teeth, applying no anesthetic and bleeding, and can not hurt the surface layer of the enamel of a customer; compared with the prior cold light whitening technology, the cold light whitening technology has the advantages of no damage to tooth tissues, short operation time, more lasting whitening effect and the like; therefore, the opening operation time of the client is greatly shortened, and simultaneously, the working efficiency of the tooth whitening worker and the durability of the whitening effect are also improved.

Description

Method for physical noninvasive tooth beautifying and whitening veneering by adopting ceramic block prosthesis material

Technical Field

The invention relates to the technical field of tooth noninvasive whitening, in particular to a method for physically performing noninvasive tooth beautifying and whitening veneering by adopting a ceramic block restoration material.

Background

The existing tooth whitening technology adopts porcelain teeth, the porcelain teeth are made into porcelain teeth which are all covered on teeth after being ground into mouse teeth to achieve the whitening effect, the porcelain teeth are made of composite porcelain and metal, the metal oxidizes the gum and appears black lines after the time is prolonged, wherein the grinding refers to that the teeth are thinned and then the patch is thickened, the grinding is quite moderate for people needing to beautify the teeth at present, because the grinding can directly grind off enamel, dentin is exposed, and symptoms such as dental acidity and the like can appear in the later period of a plurality of people.

In addition, the cold light whitening is a chemical whitening mode, has short durability, can achieve the whitening effect only by 3 operations, and can only be maintained for about half a year.

Disclosure of Invention

The invention aims to solve the technical problem of overcoming the defects of the prior art and provides a method for physically and non-invasively beautifying and whitening the veneering of teeth by adopting a ceramic block restoration material.

In order to solve the technical problems, the technical scheme of the invention is as follows:

a method for carrying out physical non-invasive beautifying and whitening veneering on teeth by adopting a ceramic block prosthesis material comprises the following specific operation steps:

step 1, trying on a porcelain veneer: alcohol disinfection porcelain is used for veneering, and the wearing is tried on the abutment of the client;

step 2, hydrofluoric acid treatment of ceramic veneers: sequentially arranging the porcelain veneers tried in the step 1, enabling the back surfaces of the porcelain veneers to face upwards, then uniformly smearing a layer of hydrofluoric acid agent on the back surfaces of the porcelain veneers, placing the porcelain veneers into a processing box, staying for 90-120 s, washing and fully drying;

step 3, natural air drying of the porcelain facing: uniformly coating a layer of silane coupling agent on the surface of the porcelain facing treated in the step 2, sequentially putting the porcelain facing into a light-shading box, and naturally drying the porcelain facing by air;

step 4, cleaning the teeth of the client: smearing Yizhuijia phosphoric acid on the surfaces of the abutment teeth of a customer in the step 1, uniformly smearing the Yizhuijia phosphoric acid without smearing gum, keeping the Yizhuijia phosphoric acid for 60 seconds, wiping off redundant Yizhuijia phosphoric acid by using a smearing rod, then washing with clear water and drying by blowing, removing all residual dirty objects on the surfaces of the teeth by using a tooth pick, then arranging dental floss in the gaps between the teeth, and then repeatedly using the dental floss to remove all dirty objects in the triangular regions between the teeth;

step 5, single abutment light curing treatment: coating a layer of enamel adhesive on the single abutment cleaned by the client in the step 4, and performing light curing for 5 seconds;

step 6, porcelain facing illumination curing treatment: taking the ceramic veneers naturally dried in the step 3 out of the light-shielding box, coating a layer of enamel adhesive, and curing for 5 seconds by illumination;

step 7, single abutment porcelain facing and pasting: a proper amount of the cement matrix is injected into the back surface of the ceramic veneering cured by illumination in the step 6, the cement matrix is uniformly coated by a tooth pick, then the ceramic veneering is placed at the gum of a tooth body, the cement matrix is fully overflowed, the cement matrix is cured by illumination for 1 second to be solidified, then the excess cement matrix is removed by the tooth pick, absorbent cotton is used for spraying wet alcohol to polish the surface of the whole ceramic veneering, and dental floss is pulled down after the treatment is finished;

and 8, pasting the whole row in sequence: repeating the steps 5 to 7 according to the upper tooth arrangement or the lower tooth arrangement of the customer, the middle right incisor (1)

Left middle incisor (2)

Right incisor (3)

Left incisor (4)

Right cuspid (5)

Right first premolar (6)

Left cuspid (7)

The left first premolar (8) completes the adhesion in sequence;

step 9, oxygen-isolated light curing: coating the perlika oxygen-blocking agent on the slit between the upper row of teeth or the lower row of teeth, the gingiva and the edge of the teeth after pasting in the step 8 in sequence, and carrying out light curing on the labial side for 80 seconds and the lingual side for 40 seconds;

step 10, whole-mouth adjustment: and adjusting occlusion of the whole opening to finish the operation.

Further, the illumination curing adopts an LED (light emitting diode) light curing machine, strong light is selected, and the illumination intensity is 1600 illumination.

Further, the porcelain veneers are made of porcelain block restoration materials by cutting by a machine after being designed and printed by a computer 3 d.

Further, the ceramic block restoration material is any one of cast porcelain, glass porcelain, diamond crystal and amber porcelain.

Further, the hydrofluoric acid agent contained 5ml of hydrofluoric acid gel and 30g of neutralizing powder, wherein the hydrofluoric acid gel was composed of hydrofluoric acid, silica, a pigment and distilled water; the neutralization powder consists of sodium carbonate and potassium carbonate.

Further, the above-mentioned jacaga phosphoric acid, also called as acid etching agent, mainly comprises phosphoric acid solution (with a content of 37% phosphoric acid), silicon dioxide, methylene blue and deionized water.

Further, the enamel binder is composed of bisphenol a glycidyl methacrylate, urethane dimethacrylate, phosphoacrylic acid, glyceryl dimethacrylate, hydroxyethyl methacrylate, ethanol, ultra-fine silica, ethyl p-dimethylaminobenzoate, camphorquinone, and butylated hydroxytoluene as the main components.

Further, the Beilikang oxygen inhibitor mainly comprises ureidoalkyl trimethacrylate, triethylene glycol dimethacrylate, barium glass filler, barium aluminum fluosilicate glass, mixed oxide, a fluorinated mirror, a catalyst, dibutyl hydroxy toluene and a coloring agent.

Further, the catalyst in the Beilikang oxygen inhibitor comprises camphorquinone, dimethylamino, ethyl benzoate and benzoyl peroxide.

Further, the coloring agent in the Beilikang oxygen inhibitor comprises iron oxide red, iron oxide yellow, iron oxide black and titanium dioxide.

The invention has the beneficial effects that:

compared with the existing porcelain tooth whitening technology, the tooth whitening method with the porcelain veneering, disclosed by the invention, can be used for directly whitening and repairing the upper 8 teeth and the lower 8 teeth in the beautifying area on the enamel surface layer without grinding teeth, applying anesthetics and bleeding, and does not damage the enamel surface layer of a customer.

Compared with the prior cold light whitening technology, the tooth whitening method with the porcelain veneer disclosed by the invention has the advantages of no damage to tooth tissues, short operation time, more lasting whitening effect and the like.

The method for physically and non-invasively beautifying and whitening the veneering of the teeth by adopting the ceramic block restoration material quickly finishes the teeth whitening operation on the premise of not intervening in the oral cavity of a human body and generating no wound, greatly shortens the opening operation time of a client, and simultaneously improves the working efficiency of teeth whitening workers and the durability of the whitening effect.

Drawings

Fig. 1 is a flow chart of the first and second embodiments of the present invention.

Fig. 2 is a schematic view of the upper row of teeth according to the first and second embodiments of the present invention.

Fig. 3 is a schematic view of the lower row of teeth according to the first and second embodiments of the present invention.

In the figure, 1 is the right middle incisor, 2 is the left middle incisor, 3 is the right side incisor, 4 is the left side incisor, 5 is the right cuspid, 6 is the right first premolar, 7 is the left cuspid, and 8 is the left first premolar.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described below with reference to the accompanying drawings, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

A method for carrying out physical non-invasive beautifying and whitening veneering on teeth by adopting a ceramic block prosthesis material comprises the following specific operation steps:

step 1, trying on a porcelain veneer: alcohol disinfection porcelain is used for veneering, and the wearing is tried on the abutment of the client;

step 2, hydrofluoric acid treatment of ceramic veneers: sequentially arranging the porcelain veneers tried in the step 1, enabling the back surfaces of the porcelain veneers to face upwards, then uniformly smearing a layer of hydrofluoric acid agent on the back surfaces of the porcelain veneers, placing the porcelain veneers into a processing box, staying for 90-120 s, washing and fully drying;

step 3, natural air drying of the porcelain facing: uniformly coating a layer of silane coupling agent on the surface of the porcelain facing treated in the step 2, sequentially putting the porcelain facing into a light-shading box, and naturally drying the porcelain facing by air;

step 4, cleaning the teeth of the client: smearing Yizhuijia phosphoric acid on the surfaces of the abutment teeth of a customer in the step 1, uniformly smearing the Yizhuijia phosphoric acid without smearing gum, keeping the Yizhuijia phosphoric acid for 60 seconds, wiping off redundant Yizhuijia phosphoric acid by using a smearing rod, then washing with clear water and drying by blowing, removing all residual dirty objects on the surfaces of the teeth by using a tooth pick, then arranging dental floss in the gaps between the teeth, and then repeatedly using the dental floss to remove all dirty objects in the triangular regions between the teeth;

step 5, single abutment light curing treatment: coating a layer of enamel adhesive on the single abutment cleaned by the client in the step 4, and performing light curing for 5 seconds;

step 6, porcelain facing illumination curing treatment: taking the ceramic veneers naturally dried in the step 3 out of the light-shielding box, coating a layer of enamel adhesive, and curing for 5 seconds by illumination;

step 7, single abutment porcelain facing and pasting: a proper amount of the cement matrix is injected into the back surface of the ceramic veneering cured by illumination in the step 6, the cement matrix is uniformly coated by a tooth pick, then the ceramic veneering is placed at the gum of a tooth body, the cement matrix is fully overflowed, the cement matrix is cured by illumination for 1 second to be solidified, then the excess cement matrix is removed by the tooth pick, absorbent cotton is used for spraying wet alcohol to polish the surface of the whole ceramic veneering, and dental floss is pulled down after the treatment is finished;

and 8, pasting the whole row in sequence: repeating the operations from step 5 to step 7, and arranging the right and middle incisor 1 on the upper row of teeth according to the customer

Left central incisor 2

Right incisor 3

Left incisor 4

Right canine tooth 5

Right first premolar 6

Left canine tooth 7

The left first premolar 8 completes the adhesion in sequence;

step 9, oxygen-isolated light curing: coating Beilikang oxygen-blocking agents on the slit between the teeth, the gum and the edge of the teeth after the teeth are arranged and stuck on the client in sequence in the step 8, and carrying out light curing on the labial side for 80 seconds and the lingual side for 40 seconds;

step 10, pasting the whole row in sequence: repeating the operations from the step 5 to the step 7 according to the lower teeth of the customer, the right middle incisor 1

Left central incisor 2

Right incisor 3

Left incisor 4

Right canine tooth 5

Right first premolar 6

Left canine tooth 7

The left first premolar 8 completes the adhesion in sequence;

step 11, oxygen-isolated light curing: coating Beilikang oxygen-blocking agents on the slit between the teeth, the gum and the edge of the teeth after the teeth are pasted on the lower row of the client in sequence in the step 8, and carrying out light curing on the labial side for 80 seconds and the lingual side for 40 seconds;

step 12, whole-mouth adjustment: and adjusting occlusion of the whole opening to finish the operation.

Preferably, the illumination curing adopts an LED (light emitting diode) light curing machine, strong light is selected, and the illumination intensity is 1600 illumination.

Preferably, the porcelain facing is made of porcelain block restoration materials by cutting by a machine after being designed and printed by a computer 3 d.

Preferably, the ceramic block prosthesis material is any one of cast porcelain, glass porcelain, diamond crystal and amber porcelain.

Preferably, the hydrofluoric acid agent comprises 5ml of hydrofluoric acid gel and 30g of neutralizing powder, wherein the hydrofluoric acid gel consists of hydrofluoric acid, silica, a pigment and distilled water; the neutralization powder consists of sodium carbonate and potassium carbonate.

Preferably, the jacagrelor phosphoric acid, also called as acid etching agent, mainly comprises phosphoric acid solution (with the content of 37 percent phosphoric acid), silicon dioxide, methylene blue and deionized water.

Preferably, the enamel binder consists of bisphenol a glycidyl methacrylate, urethane dimethacrylate, phosphoacrylic acid, glyceryl dimethacrylate, hydroxyethyl methacrylate, ethanol, ultra-fine silica, ethyl p-dimethylaminobenzoate, camphorquinone, and butylated hydroxytoluene as the main components.

Preferably, the Beilikang oxygen inhibitor mainly comprises ureidoalkyl trimethacrylate, triethylene glycol dimethacrylate, barium glass filler, barium aluminum fluosilicate glass, mixed oxide, a fluorinated mirror, a catalyst, dibutyl hydroxy toluene and a coloring agent.

Preferably, the catalyst in the Beilikang oxygen inhibitor comprises camphorquinone, dimethylamino, ethyl benzoate and benzoyl peroxide.

Preferably, the coloring agent in the Beilikang oxygen inhibitor comprises iron oxide red, iron oxide yellow, iron oxide black and titanium dioxide.

Example two

A method for carrying out physical non-invasive beautifying and whitening veneering on teeth by adopting a ceramic block prosthesis material comprises the following specific operation steps:

step 1, trying on a porcelain veneer: alcohol disinfection porcelain is used for veneering, and the wearing is tried on the abutment of the client;

step 2, hydrofluoric acid treatment of ceramic veneers: sequentially arranging the porcelain veneers tried in the step 1, enabling the back surfaces of the porcelain veneers to face upwards, then uniformly smearing a layer of hydrofluoric acid agent on the back surfaces of the porcelain veneers, placing the porcelain veneers into a processing box, staying for 90-120 s, washing and fully drying;

step 3, natural air drying of the porcelain facing: uniformly coating a layer of silane coupling agent on the surface of the porcelain facing treated in the step 2, sequentially putting the porcelain facing into a light-shading box, and naturally drying the porcelain facing by air;

step 4, cleaning the teeth of the client: smearing Yizhuijia phosphoric acid on the surfaces of the abutment teeth of a customer in the step 1, uniformly smearing the Yizhuijia phosphoric acid without smearing gum, keeping the Yizhuijia phosphoric acid for 60 seconds, wiping off redundant Yizhuijia phosphoric acid by using a smearing rod, then washing with clear water and drying by blowing, removing all residual dirty objects on the surfaces of the teeth by using a tooth pick, then arranging dental floss in the gaps between the teeth, and then repeatedly using the dental floss to remove all dirty objects in the triangular regions between the teeth;

step 5, single abutment light curing treatment: coating a layer of enamel adhesive on the single abutment cleaned by the client in the step 4, and performing light curing for 5 seconds;

step 6, porcelain facing illumination curing treatment: taking the ceramic veneers naturally dried in the step 3 out of the light-shielding box, coating a layer of enamel adhesive, and curing for 5 seconds by illumination;

step 7, single abutment porcelain facing and pasting: the back of the porcelain veneer which is cured by illumination in the step 6 is driven into a proper amount of the cement matrix, the cement matrix is evenly coated by a tooth pick, then the porcelain veneer is placed at the gum of the tooth body, the cement matrix is fully overflowed, the cement matrix is cured by illumination for 1 second to be solidified, then the excess cement matrix is removed by the tooth pick, absorbent cotton is used for spraying wet alcohol to polish the surface of the whole porcelain veneer, and the dental floss is pulled down after the treatment is finished

And 8, pasting the whole row in sequence: repeating the operations from the step 5 to the step 7 according to the lower teeth of the customer, the right middle incisor 1

Left central incisor 2

Right incisor 3

Left incisor 4

Right canine tooth 5

Right first premolar 6

Left canine tooth 7

The left first premolar 8 completes the adhesion in sequence;

step 9, oxygen-isolated light curing: coating Beilikang oxygen-blocking agents on the slit between the teeth, the gum and the edge of the teeth after the teeth are pasted on the lower row of the client in sequence in the step 8, and carrying out light curing on the labial side for 80 seconds and the lingual side for 40 seconds;

step 10, pasting the whole row in sequence: repeating the operations from step 5 to step 7, and arranging the right and middle incisor 1 on the upper row of teeth according to the customer

Left central incisor 2

Right incisor 3

Left incisor 4

Right canine tooth 5

Right first premolar 6

Left canine tooth 7

The left first premolar 8 completes the adhesion in sequence;

step 11, oxygen-isolated light curing: coating Beilikang oxygen-blocking agents on the slit between the teeth, the gum and the edge of the teeth after the teeth are arranged and stuck on the client in sequence in the step 8, and carrying out light curing on the labial side for 80 seconds and the lingual side for 40 seconds;

step 12, whole-mouth adjustment: and adjusting occlusion of the whole opening to finish the operation.

Preferably, the illumination curing adopts an LED (light emitting diode) light curing machine, strong light is selected, and the illumination intensity is 1600 illumination.

Preferably, the porcelain facing is made of porcelain block restoration materials by cutting by a machine after being designed and printed by a computer 3 d.

Preferably, the ceramic block prosthesis material is any one of cast porcelain, glass porcelain, diamond crystal and amber porcelain.

Preferably, the hydrofluoric acid agent comprises 5ml of hydrofluoric acid gel and 30g of neutralizing powder, wherein the hydrofluoric acid gel consists of hydrofluoric acid, silica, a pigment and distilled water; the neutralization powder consists of sodium carbonate and potassium carbonate.

Preferably, the jacagrelor phosphoric acid, also called as acid etching agent, mainly comprises phosphoric acid solution (with the content of 37 percent phosphoric acid), silicon dioxide, methylene blue and deionized water.

Preferably, the enamel binder consists of bisphenol a glycidyl methacrylate, urethane dimethacrylate, phosphoacrylic acid, glyceryl dimethacrylate, hydroxyethyl methacrylate, ethanol, ultra-fine silica, ethyl p-dimethylaminobenzoate, camphorquinone, and butylated hydroxytoluene as the main components.

Preferably, the Beilikang oxygen inhibitor mainly comprises ureidoalkyl trimethacrylate, triethylene glycol dimethacrylate, barium glass filler, barium aluminum fluosilicate glass, mixed oxide, a fluorinated mirror, a catalyst, dibutyl hydroxy toluene and a coloring agent.

Preferably, the catalyst in the Beilikang oxygen inhibitor comprises camphorquinone, dimethylamino, ethyl benzoate and benzoyl peroxide.

Preferably, the coloring agent in the Beilikang oxygen inhibitor comprises iron oxide red, iron oxide yellow, iron oxide black and titanium dioxide.

The silane coupling agents, hydrofluoric acid agents, Yigejia phosphoric acid, enamel adhesives, Beilikang oxygen inhibitors and the like used in the above examples can be purchased in the domestic market.

The above embodiments are merely preferred embodiments of the present invention, and it is obvious to those skilled in the art that the present invention is not limited to the above embodiments, and the present invention can be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The scope of the invention is, therefore, indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims (10)

1. A method for carrying out physical non-invasive beautifying and whitening veneering on teeth by adopting a ceramic block prosthesis material comprises the following specific operation steps:

step 1, trying on a porcelain veneer: alcohol disinfection porcelain is used for veneering, and the wearing is tried on the abutment of the client;

step 2, hydrofluoric acid treatment of ceramic veneers: sequentially arranging the porcelain veneers tried in the step 1, enabling the back surfaces of the porcelain veneers to face upwards, then uniformly smearing a layer of hydrofluoric acid agent on the back surfaces of the porcelain veneers, placing the porcelain veneers into a processing box, staying for 90-120 s, washing and fully drying;

step 3, natural air drying of the porcelain facing: uniformly coating a layer of silane coupling agent on the surface of the porcelain facing treated in the step 2, sequentially putting the porcelain facing into a light-shading box, and naturally drying the porcelain facing by air;

step 4, cleaning the teeth of the client: smearing Yizhuijia phosphoric acid on the surfaces of the abutment teeth of a customer in the step 1, uniformly smearing the Yizhuijia phosphoric acid without smearing gum, keeping the Yizhuijia phosphoric acid for 60 seconds, wiping off redundant Yizhuijia phosphoric acid by using a smearing rod, then washing with clear water and drying by blowing, removing all residual dirty objects on the surfaces of the teeth by using a tooth pick, then arranging dental floss in the gaps between the teeth, and then repeatedly using the dental floss to remove all dirty objects in the triangular regions between the teeth;

step 5, single abutment light curing treatment: coating a layer of enamel adhesive on the single abutment cleaned by the client in the step 4, and performing light curing for 5 seconds;

step 6, porcelain facing illumination curing treatment: taking the ceramic veneers naturally dried in the step 3 out of the light-shielding box, coating a layer of enamel adhesive, and curing for 5 seconds by illumination;

step 7, single abutment porcelain facing and pasting: a proper amount of the cement matrix is injected into the back surface of the ceramic veneering cured by illumination in the step 6, the cement matrix is uniformly coated by a tooth pick, then the ceramic veneering is placed at the gum of a tooth body, the cement matrix is fully overflowed, the cement matrix is cured by illumination for 1 second to be solidified, then the excess cement matrix is removed by the tooth pick, absorbent cotton is used for spraying wet alcohol to polish the surface of the whole ceramic veneering, and dental floss is pulled down after the treatment is finished;

and 8, pasting the whole row in sequence: repeating the steps 5 to 7 according to the upper tooth arrangement or the lower tooth arrangement of the customer, the middle right incisor (1)

Left middle incisor (2)

Right incisor (3)

Left incisor (4)

Right cuspid (5)

Right first premolar (6)

Left cuspid (7)

The left first premolar (8) completes the adhesion in sequence;

step 9, oxygen-isolated light curing: coating the perlika oxygen-blocking agent on the slit between the upper row of teeth or the lower row of teeth, the gingiva and the edge of the teeth after pasting in the step 8 in sequence, and carrying out light curing on the labial side for 80 seconds and the lingual side for 40 seconds;

step 10, whole-mouth adjustment: and adjusting occlusion of the whole opening to finish the operation.

2. The method for physically beautifying, whitening and veneering teeth with no wound by using the ceramic restoration material as claimed in claim 1, wherein the light curing is an LED light curing machine, strong light is selected, and the light intensity is 1600 illumination.

3. The method of physical non-invasive cosmetic whitening veneering for teeth using porcelain patch prosthetic materials according to claim 1, wherein the porcelain veneer is made by cutting with a machine after the porcelain patch prosthetic materials are designed and printed by a computer 3 d.

4. The method for physical non-invasive beauty and whitening veneering of teeth by using the ceramic block prosthesis material according to claim 3, wherein the ceramic block prosthesis material is any one of cast porcelain, glass porcelain, diamond crystal and amber porcelain.

5. The method for physical non-invasive cosmetic whitening overlay for teeth using porcelain restoration material according to claim 1 wherein the hydrofluoric acid agent comprises 5ml of hydrofluoric acid gel and 30g of neutralizing powder, wherein the hydrofluoric acid gel is composed of hydrofluoric acid, silicon dioxide, pigment and distilled water; the neutralization powder consists of sodium carbonate and potassium carbonate.

6. The method of using a porcelain restoration material for physical non-invasive cosmetic whitening veneering for teeth according to claim 1, wherein the Yicajia phosphoric acid, also called acid etching agent, comprises phosphoric acid solution (37% phosphoric acid content), silicon dioxide, methylene blue and deionized water.

7. The method of physical non-invasive cosmetic whitening of teeth veneering using a porcelain piece restorative material according to claim 1, wherein the main component of the enamel binder consists of bisphenol a glycidyl methacrylate, urethane dimethacrylate, acrylic acid phosphate, dimethacrylate, hydroxyethyl methacrylate, ethanol, ultra-fine silica, ethyl p-dimethylaminobenzoate, camphorquinone and butylated hydroxytoluene.

8. The method of physical non-invasive cosmetic whitening veneering by using a porcelain restoration material according to claim 1, wherein the pelikang oxygen blocker mainly comprises ureidoalkyl trimethacrylate, triethylene glycol dimethacrylate, barium glass filler, barium aluminum fluorosilicate glass, mixed oxides, fluoroscope, catalyst, dibutylhydroxytoluene and colorant.

9. The method of using a porcelain restoration material for physical non-invasive cosmetic whitening of teeth veneering according to claim 8, wherein the catalyst in the Beilikang oxygen blocker comprises camphorquinone, p-dimethylamino, ethyl benzoate, benzoyl peroxide.

10. The method of using a porcelain restoration material for physical non-invasive cosmetic whitening veneering for teeth according to claim 8, wherein the coloring agent in the beilikang oxygen blocker comprises red iron oxide, yellow iron oxide, black iron oxide, titanium dioxide.

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