TWI373327B - - Google Patents

Description

1373327 Modified on July 25, 2001, the invention is as follows: [Technical Field] The present invention relates to a crown surface, in particular to a cerium oxide all-ceramic composite epoxy Resin manufacturing technology method. [Prior Art] According to the current denture making technology, only φ metal surface particles and mechanically combined composite resin are included; - Three techniques, such as porcelain teeth, are used in the denture to compensate for the rupture of the body. Only the patch can be repaired in an appropriate amount. The problem exists, the time for patching and binding can't last long. If the time is too long, the above three kinds of patch body making techniques will always be stuck in the pile of 'the' cerium oxide all-ceramic material in the stage of burning ceramic powder. The current technology is not available. The surface fusion light is combined with the epoxy resin, and the teeth and the natural teeth are engaged with each other. Therefore, it is necessary to develop a method for producing a dioxed light-emitting composite epoxy resin. SUMMARY OF THE INVENTION The main object of the present invention is to provide a method for occluding and colliding a tooth between a tooth and a natural tooth. The production method; the surface of the crown is fused with metal-burned porcelain teeth, 〖°Oxidation is full of competition, however, the crown body expresses three kinds of dentures to complement the body surface of the crown to cause the patch to be damaged. . Dreams are left in the process of making and making, and the method of making it is that the cerium oxide is not effective in reducing the pressure reduction of the plant. The material fusion on the surface of the material can effectively reduce the pressure reduction of the plant. The production process of the oxygen resin is 5 1373327 1373327. The replacement of the bismuth ceramic material according to the above purpose. A method for fabricating a surface-blended light composite epoxy resin, characterized in that the surface treatment of the crown body and the type stacking are sequentially included; wherein the surface treatment of the crown body is mainly applied to the surface of the crown body by applying a modifier The crown surface is roughened to fuse with the light composite epoxy resin. The type of stacking is coated with light-based composite epoxy resin layer by layer, and the long-wavelength light is irradiated to make the light-compositing epoxy resin harden, and the surface of the oxidized composite all-ceramic material can be completed. Crown. Therefore: knowing the above-mentioned dioxins are all: the material surface is dissolved and the light is made by the method of making the fat, and the system is applied to the surface of the crown for several times: = plus the oxidation of the crown of the material. Surface rough joint 2 = body and light composite epoxy resin solubility; and by mutual bite collision... "Reducing the time of implanted teeth and natural teeth. Explicitly prolonging the use of dentures [Embodiment] For the purpose of creating a new eve g Μ For a detailed understanding of ', ^ politics, features and structure can have a better solution, the preferred embodiment first | 『North with the schema description as .

Blind first '凊 第一 第一 第一 第一 第一 第一 第一 ' ' ' 第二 第二 第二 第二 第二 第二 第二 第二 第二 第二 第二 第二 第二 第二 第二 第二 第二 第二 第二 第二 第二 第二 第二 第二 第二 第二 第二 第二 第二 第二 第二 第二The fourth A picture and the A picture are the crown body coating. , 3⁄4 picture, the first B picture first modification agent cross section shows that the second A picture is the physical figure of the crown winter modification agent. Schematic diagram of the second (4) second modifier, No. 6 1373327 I Revised on July 25, 101. The figure for the second modified agent of the crown coating, the third A Fig. is a schematic cross-sectional view of a crown-coated light-up modifier, the third figure is a solid figure of the crown-coated light-up modifier, and the fourth picture A is a crown coating A schematic cross-sectional view of the light-sensitive modifier, and a fourth panel B is a physical diagram of the crown-coated light-sensitive modifier. The method for fabricating a surface-dissolved light-compositing epoxy resin according to the invention is characterized in that the surface treatment of the crown and the type stacking are sequentially included.

, W tooth crown 1 surface treatment 'mainly on the surface of the crown body 1 coated with modifiers, so that the surface of the crown body 1 is roughened to fuse with the light composite epoxy resin, wherein the 'crown body 1 surface treatment program The method comprises the following steps: Step 1: fused the surface of the crown body 1 made of the dioxic all-ceramic material to the first modifier 2 at a fusion temperature of 720 degrees to 1000 degrees to form a rough surface of a predetermined thickness The first modifier 2 is a temperature-melting modifier. (As shown in Figure A and Figure B) Step 2: At the fused temperature of 720 ° ~ 1 〇〇〇, the surface of the crown 1 is fused for the first time. The second modifier 3 of the inorganic oxide particles forms a rough surface of a predetermined thickness. (As shown in Figure 2A and Figure 2b) * Step 3: Apply the light-up modifier 4 to the surface of the crown that is fused in the second step and irradiate with the first long-wave light. The light applied to the surface of the crown body is reacted by a modifier 4, which is a mixture of ethanol and oxane-acetone, and the wavelength of the first long-wave light is in the range of 7 1373327. Japanese repair ίί He feared 1400 ~ 2000 nm. (As shown in the third and third figures) Step 4. Apply the light-sensitive modifier 5 to the surface of the crown 1 of the third step, and apply the second long-wave light to the crown. 1 The surface of the light-sensitive modifier 5 is reacted. The photo-sensitive modifier 5 is a mixture of phosphorous acid-polymerizable mono-lipoic acid, and the second long-wavelength light has a wavelength in the range of 1600 to 2500 nm. (As shown in the fourth A map and the fourth β graph) Continue to refer to the fifth A map, the fifth B graph, the sixth a graph, the sixth B graph, the seventh A graph, the seventh B graph, and the Fig. 8a and Fig. 8; Fig. 5A is a cross-sectional view of the dentin layer of the crown body, and Fig. 5B is a solid figure of the dentin layer of the crown body, figure 68 The figure is a cross-sectional view of the enamel layer of the crown body building method, the sixth figure B is the physical figure of the enamel layer of the crown body building method, and the seventh picture A is the transparent layer of the crown body building surface. A cross-sectional view, the seventh B is a solid view of the transparent layer of the crown body, the eighth A is a cross-sectional view of the surface of the crown, and the eighth B is the complete crown A solid map of surface stacking. It can be seen from the figure that the crown-shaped composite epoxy resin is layer-by-layer coated and cemented with oxygen resin to complete the patterning method of the crown epoxy resin of the light composite epoxy resin. After being established, the surface of the refractory di- oxidized all-ceramic material may be fused by illumination and irradiated with long-wave light, wherein the photomask composite ring comprises the following step 5 in the subsequent step 4 to illuminate the epoxy resin. On the surface of the crown of step 4, the opaque inner layer of the image #m, 筲6 is formed, and the long-wavelength light (wavelength range is 1400~2000 nm) is irradiated for ~8 minutes to harden the ivory inner layer of the opaque inner layer. (As shown in the fifth and fifth B diagrams) Step 6. Create a second layer of translucent c-Y layer enamel 7 with long-wavelength (wavelength range 14〇〇~2〇〇〇灰&amp ; ^ 'm) is irradiated for 4 to 8 minutes to harden the tannin 7 of the translucent middle layer. (as shown in Figures 6A and 6B)

Step 7: Establish a third layer of transparent surface layer with a length of 1400~2000 nm). The surface transparent layer 8 of the irradiation 7 is hardened, and the cerium oxide all-ceramic crown is shown in the eighth A and the eighth B) The above-mentioned step 7 of the ^ ^ J pays your crown can be polished and waxed surface modification to increase the visual acuity.

On July 25, 101, the replacement of the body 8 was corrected, and the long-wavelength light (wave minute, so that the crown body 1 was obtained by surface-lighting combined with the epoxy resin 1) (as shown in Figure 7A, Figure 7b, For the inventor to conduct the peeling test of cerium oxide and photopolymerized resin through the Metal Industry Research and Development Center (the inventor of this case is the representative of the franchisee Zanteng Equipment Co., Ltd.): Test item: Peeling test equipment: MTS 810 SYSTEM 100KNC testing machine Test temperature: temperature 2 5 °C The test piece area is 12.14x14.27mm. The test results show that the oxidized erroneous all-ceramic material surface-dissolving light composite epoxy resin manufacturing method according to the present invention is obtained, and the obtained oxidized 9 1373327 101 Correction of replacement page on July 25th, 2017 | l The maximum load of 黏 and light composite ring enamel resin is 193kgf 'improving its fusion effect, so it is applied to dental sputum complex body, implant body and tooth body complex The shape material, 俾 can be realized. Looking at the above, the technical method for fabricating the surface fused light composite epoxy resin of the dioxo-defective material of the present invention can be known, which has the following advantages. : Repeated surface treatment on the crown to increase the surface roughness of the crown of the oxidized all-ceramic material, and strengthen the fusion degree of the crown and the light epoxy resin. The material properties of the composite epoxy resin Effectively reduce the pressure reduction caused by the occlusal collision between the dental implants and the bran teeth. 俾 Effective extension: The use time of the dentures 0) (2) 10 1373327 __ July 25, 2011 Correction replacement 100 [Simple description The first A is a cross-sectional view of the first modifier applied to the crown. The first B is the physical diagram of the first modifier applied to the crown. The second A is the crown. A cross-sectional view of the second coating agent applied to the body. The second B is a physical diagram of the second modifier of the crown coating. The third A is a crown coating coated light modifier. Figure 3 is a cross-sectional view of the crown-coated light-sensitive modifier. Figure 4A is a cross-sectional view of the crown-coated light-sensitive modifier. A solid diagram of the photo-sensitive modifier applied to the crown. • 'The fifth A is a cross-sectional view of the dentin layer of the crown. The fifth line of FIG crown body B piled layer of dentin entities FIG.

〇The sixth A picture is the crown body piled up the sixth B picture is the crown body piled up the seventh A picture is the crown body piled up the seventh B picture system is the crown body piled up the eighth A picture system In order to complete the crown, the eight-B diagram is a cross-sectional view of the crown of the crown. The physical map of the legal layer. A schematic view of the surface transparent layer. A schematic cross-sectional view of the surface stacking. A solid map of surface stacking. 2 First Modifier Second Modifier 4 Light Modifier 5 Light Sensitive Modifier 6 Ivory 11 1373327 Modified on July 25, 2011 7 Famolism 8 Surface Transparent Layer

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Claims (1)

1373327 X. Patent application scope: _ If .v' 10M ~Π~~--- 07月25曰^良#:换百1. A method for fabricating composite epoxy resin with surface-dissolved light on the surface of all-ceramic crowns. The sequence includes the surface treatment of the crown and the type of stacking; wherein the process of treating the surface of the crown includes: Step 1: making the dioxin-made all-ceramic material at a fusion temperature of 720 to 1000 degrees The surface of the crown is fused with the first modifier to form a rough surface of a predetermined thickness, the first modifier is a temperature-melting modifier; and the second step is a condensation temperature of 720 degrees to 1 degree. In the state, the surface of the crown which is first melted in the first step is fused with the second modifier containing micron inorganic oxide particles to form a rough surface of a predetermined thickness; Step 2 is applied to the light modifier In the second step, the surface of the crown of the second fusion is completed, and the light is applied to the surface of the crown body by the first long-wave light to react with the modifier, and the light-modifying agent is ethanol-oxygen. The alkane-acetone mixture' first long-wavelength light has a wavelength range of 14〇〇~2000奈Step 4: Applying a light-sensitive modifier to the surface of the crown of the third step and irradiating the surface of the crown with a second long-wave light to react, the light-sensitive modification The granule is a phosphorous acid-polymerizable monomer-lipoic acid mixture. The wavelength of the second long-wavelength light is in the range of 1600~2500. 13 1373327 The replacement of the page is corrected on July 25, 2011. The type stacking program includes: Step 5: illuminating the epoxy resin on the surface of the crown of step 4 to form an opaque inner layer of ivory, and irradiating with long wave light (1400~2000 nm) for 4 to 8 minutes to make the opaque inner layer of ivory hardening ; Step 6: Establish a second layer of translucent intermediate layer enamel, and irradiate with long wavelength light (1400~2000 nm) for 4 to 8 minutes to harden the translucent intermediate layer; Step 7: Establish a third layer surface The transparent layer is irradiated with long-wave light (1400~2 000 nm) for 7 to 10 minutes to harden the transparent layer of the surface, that is, the surface of the zirconia all-ceramic crown of the composite epoxy resin is fused. 2. The technical method for preparing a composite epoxy resin for zirconia all-ceramic crown surface surface fused light according to claim 1 of the patent application scope, wherein the crown body obtained in step 7 can be polished and waxed. Type modification. 14