[go: up one dir, main page]
More Web Proxy on the site http://driver.im/

JP2018143393A - Easy coloring dental pre-sintered body - Google Patents

Easy coloring dental pre-sintered body Download PDF

Info

Publication number
JP2018143393A
JP2018143393A JP2017040007A JP2017040007A JP2018143393A JP 2018143393 A JP2018143393 A JP 2018143393A JP 2017040007 A JP2017040007 A JP 2017040007A JP 2017040007 A JP2017040007 A JP 2017040007A JP 2018143393 A JP2018143393 A JP 2018143393A
Authority
JP
Japan
Prior art keywords
dental
sintered body
coloring
liquid
density
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
JP2017040007A
Other languages
Japanese (ja)
Inventor
勇生 門林
Isao Kadobayashi
勇生 門林
繁澤麻紗子
Masako Sigesawa
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Shofu Inc
Original Assignee
Shofu Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Shofu Inc filed Critical Shofu Inc
Priority to JP2017040007A priority Critical patent/JP2018143393A/en
Priority to EP17183802.2A priority patent/EP3275398B1/en
Priority to US15/662,557 priority patent/US10905531B2/en
Publication of JP2018143393A publication Critical patent/JP2018143393A/en
Pending legal-status Critical Current

Links

Images

Landscapes

  • Dental Prosthetics (AREA)

Abstract

PROBLEM TO BE SOLVED: To provide a coloring method to a dental pre-sintered body that can make a dental restoration enabling color tone reproduction similar to the natural tooth and further can reproduce a detailed tooth-colored design for solving problems in which a conventional dental restoration cannot perform color tone expression similar to a natural tooth in the light and shade or the strength of color.SOLUTION: A dental pre-sintered body is provided in which cutting work is performed after pre-sintering and it is completely sintered to a state capable of being used in an oral cavity after the cutting work. The dental pre-sintered body is characterized in that the density of the dental pre-sintered body sintered preliminarily is assumed as the preliminary sintering density, and the density of the dental pre-sintered body finally sintered to the density for use in the oral cavity is assumed as the complete sintered density, and then the equation of 30≤relative density (%)={(preliminary sintering density)/(complete sintered density)}×100≤45 is satisfied.SELECTED DRAWING: Figure 4

Description

CAD/CAM技術を用いた切削加工により歯科用修復物を作製するための歯科用仮焼結体であって、容易に着色することができる歯科用仮焼結体に関する。 The present invention relates to a dental temporary sintered body for producing a dental restoration by cutting using CAD / CAM technology, which can be easily colored.

近年、歯科用修復物は、CAD/CAM技術を用いて歯科用仮焼結体を切削加工しその後、完全に焼成することで作製している。
作製された歯科用修復物は、天然歯の色に着色されていることが求められ、完全焼成する前の段階で着色された歯科用着色仮焼結体を得る技術が発明されてきた。
特許文献1には、天然歯の色に着色された歯科用修復物を得るために、複数の色に着色した粉材を積層して歯科用着色仮焼結体を作製している。しかし、複数の粉材を用いることから界面から剥がれることがあり、また、複雑な着色を再現することはできなかった。
特許文献2、3には切削加工された歯科用修復物を金属イオン着色液又は金属錯体着色液に浸漬させ、その後焼結させることで半透明の着色された歯科用修復物を作製することを記載している。しかし、金属イオン着色液又は金属錯体着色液の浸透力が弱く、内部まで適切に着色することが難しかった。
In recent years, dental restorations have been produced by cutting a dental temporary sintered body using CAD / CAM technology and then firing it completely.
The prepared dental restoration is required to be colored in the color of natural teeth, and a technique has been invented for obtaining a dental colored temporary sintered body colored in a stage before complete firing.
In Patent Document 1, in order to obtain a dental restoration colored in the color of natural teeth, a dental colored temporary sintered body is prepared by laminating powder materials colored in a plurality of colors. However, since a plurality of powder materials are used, it may be peeled off from the interface, and complicated coloring cannot be reproduced.
Patent Documents 2 and 3 describe that a cut dental restoration is immersed in a metal ion coloring solution or a metal complex coloring solution and then sintered to produce a translucent colored dental restoration. It is described. However, the penetrating power of the metal ion coloring liquid or the metal complex coloring liquid is weak, and it is difficult to appropriately color the inside.

WO2009/154301WO2009 / 154301 特表2002-536280Special Table 2002-536280 特表2010-534245Special table 2010-534245

従来の着色された歯科用仮焼結体は歯牙の色に着色された平行な層から構成されており、その歯科用仮焼結体から切削加工された歯科用修復物は、色の濃淡や強弱などにおいて天然歯と類似の色調表現ができなかった。そのため、天然歯に類似の色調再現が可能な歯科用修復物を作製できることが望まれていた。更に、詳細な歯牙色のデザインを再現することができる歯科用仮焼結体への着色方法が求められていた。 A conventional colored dental pre-sintered body is composed of parallel layers colored in the color of a tooth, and a dental restoration cut from the dental pre-sintered body has color shading and Color tone expression similar to that of natural teeth could not be achieved in terms of strength and weakness. Therefore, it has been desired that a dental restoration capable of reproducing a color tone similar to that of natural teeth can be produced. Furthermore, there has been a demand for a method for coloring a dental temporary sintered body that can reproduce a detailed tooth color design.

本発明の歯科用仮焼結体は、予備焼結後に切削加工が行なわれ、切削加工後に口腔内で使用できる状態まで完全焼結させる歯科用仮焼結体であって、
予備焼結された歯科用仮焼結体の密度を予備焼結密度とし、
口腔内で使用する密度まで最終焼結された歯科用仮焼結体の密度を完全焼結密度としたとき、
30 ≦ 相対密度(%)={(予備焼結密度)/(完全焼結密度)}×100 ≦ 45
の式を満たすことを特徴とする。好ましくは
30 ≦ 相対密度(%)={(予備焼結密度)/(完全焼結密度)}×100 ≦ 35
また、
37 ≦ 相対密度(%)={(予備焼結密度)/(完全焼結密度)}×100 ≦ 40
も好ましい。
無機粉末を圧縮成型後に予備焼結された歯科用仮焼結体であることが好ましい。その歯科用仮焼結体の切削加工後に口腔内で使用する密度まで最終焼結されることが好ましい。
本発明の歯科用仮焼結体は、無機粉末を圧縮成型後に仮焼成することにより、製造することができる。用いる無機粉末はアルミナ系、ジルコニア系、シリカ系、窒化アルミ、窒化ケイ素などのセラミックスまたはガラス粉末が挙げられる。アルミナ系、ジルコニア系が好ましい。
アルミナ系、ジルコニア系とはアルミナまたはジルコニアが無機粉末組成中に重量で60%〜100%、好ましくは80%〜100%、更に好ましくは95%〜100%であることである。
無機粉末の平均粒子径が1.0-5000nmであることを特徴とする。より好ましくは30-1000nmである。無機粉末は2次粒子を形成してもよく、平均2次粒子径は0.01-50μmである。
歯科用仮焼結体に用いる着色材を含む着色液及び浸透液材を含む浸透液との歯科用仮焼結体用着色セットであることが好ましい。着色液は着色液材および着色材を含むことを特徴とする。浸透液は着色液を歯科用仮焼結体の内部に浸透させる為に、着色液の次に浸透させるところに特徴を有する。歯科用仮焼結体に、着色材を含む着色液及び浸透液材を含む浸透液とを順番に接触させることで、歯科用仮焼結体の内部に着色を行う。
歯科用仮焼結体を切削加工した後の歯科用修復物に、着色材を含む着色液及び浸透液材を含む浸透液とを順次接触させることで、着色を行うこともできる。
The dental temporary sintered body of the present invention is a dental temporary sintered body that is subjected to cutting after pre-sintering and is completely sintered until it can be used in the oral cavity after cutting,
The density of the presintered dental temporary sintered body is the presintered density,
When the density of the dental temporary sintered body finally sintered to the density used in the oral cavity is defined as the complete sintered density,
30 ≤ Relative density (%) = {(pre-sintered density) / (fully sintered density)} x 100 ≤ 45
It satisfies the following formula. Preferably
30 ≤ Relative density (%) = {(pre-sintered density) / (fully sintered density)} x 100 ≤ 35
Also,
37 ≤ Relative density (%) = {(pre-sintered density) / (fully sintered density)} x 100 ≤ 40
Is also preferable.
A dental temporary sintered body obtained by pre-sintering inorganic powder after compression molding is preferable. It is preferable that the dental temporary sintered body is finally sintered to the density used in the oral cavity after cutting.
The dental temporary sintered body of the present invention can be produced by pre-baking inorganic powder after compression molding. Examples of the inorganic powder used include ceramics or glass powders such as alumina, zirconia, silica, aluminum nitride, and silicon nitride. Alumina and zirconia are preferred.
Alumina-based and zirconia-based are that alumina or zirconia is 60% to 100% by weight in the inorganic powder composition, preferably 80% to 100%, and more preferably 95% to 100%.
The average particle size of the inorganic powder is 1.0 to 5000 nm. More preferably, it is 30-1000 nm. The inorganic powder may form secondary particles, and the average secondary particle size is 0.01-50 μm.
It is preferable that it is a coloring set for dental temporary sintered bodies with the coloring liquid containing the coloring material used for the dental temporary sintered body, and the penetrating liquid containing the penetrating liquid material. The coloring liquid contains a coloring liquid material and a coloring material. The penetrating liquid is characterized in that it penetrates next to the coloring liquid in order to infiltrate the coloring liquid into the dental temporary sintered body. The dental temporary sintered body is colored by bringing the coloring liquid containing the coloring material and the penetrating liquid containing the penetrating liquid material into contact with the dental temporary sintered body in order.
Coloring can also be performed by sequentially bringing the dental restoration after cutting the dental temporary sintered body into contact with the coloring liquid containing the coloring material and the penetrating liquid containing the penetrating liquid material.

本発明は歯科用仮焼結体の内部に歯質の複雑な色彩を再現することができ、3次元的に自由に着色することもできる。その結果、歯科用仮焼結体から得られた歯科用修復物は審美的に優れ、色調再現性が高く、デザインに優れている。
従来はシェードガイドなどの色に合わせて着色された歯科用仮焼結体を複数保有する必要があるのに比べ、本発明は歯科用仮焼結体に着色を施すため、無着色である一種類の歯科用仮焼結体と着色材を含む着色液及び浸透液材を含む浸透液との歯科用仮焼結体用着色セットを保有すれば足りる。
着色されていない歯科用仮焼結体を個々に着色するため、患者の要望や、歯科医師、歯科技工士の要望に合わせて着色することができる。また、着色された無機粉末が層に分かれていない為、得られた歯科用仮焼結体や歯科用修復物の物性も高く、審美性も優れている。
本発明の歯科用仮焼結体は着色の濃淡を再現することができることから、適度にぼかしを再現することができ、色彩の移行部分が明確でない為、より審美性が高くなっている。
The present invention can reproduce the complex color of the tooth structure inside the dental temporary sintered body, and can freely color in three dimensions. As a result, the dental restoration obtained from the dental temporary sintered body is aesthetically excellent, has high color reproducibility, and is excellent in design.
Compared to the conventional need to have a plurality of dental temporary sintered bodies colored according to the color of a shade guide or the like, the present invention is colored without coloring because the dental temporary sintered body is colored. It is sufficient to have a coloring set for a dental temporary sintered body of a dental temporary sintered body of a kind, a coloring liquid containing a coloring material, and a penetrating liquid containing a penetrating liquid material.
Since the uncolored dental pre-sintered body is individually colored, it can be colored according to the needs of the patient and the needs of the dentist and dental technician. Moreover, since the colored inorganic powder is not divided into layers, the obtained dental temporary sintered body and dental restoration have high physical properties and excellent aesthetics.
Since the dental temporary sintered body of the present invention can reproduce the shade of coloring, it can appropriately reproduce blurring, and the transition portion of the color is not clear, so the aesthetics are higher.

歯科用仮焼結体は無機粉末を圧縮成型後に仮焼成するために、無機粉末同士が仮着している状態であり、その粉末間に後で説明する着色液や浸透液が浸透できる連続孔を有する状態になっている。歯科用仮焼結体は無機粉末を型に入れ圧縮成型し仮焼成することで得ることができ、CIM技術を用いて成型し仮焼成することで得ることもできる。
歯科用仮焼結体に着色材を浸透させることで歯科用着色仮焼結体を得ることができる。歯科用仮焼結体に直接着色材を浸透させることは難しい為、着色材と着色液材を混合して着色液とし、着色液を歯科用仮焼結体に浸透させることで歯科用仮焼結体に着色を施し、歯科用着色仮焼結体を得ることができる。着色液材は着色材の浸透後に気化若しくは焼成して取り除かれる。
歯科用仮焼結体を着色した歯科用着色仮焼結体を、天然歯形態の一部である歯科用修復物の形状に切削加工し、本焼成することで、最終形状の歯科用修復物を得ることができる。歯科用着色仮焼結体から天然歯形態の一部である歯科用修復物を切削する場合は、本焼成にて収縮することを考慮に入れ、最終形状の歯科用修復物の相似形に拡大した形状に切削し本焼成することで最終形状の歯科用修復物を得ることができる。また、歯科用着色仮焼結体を完全焼成して歯科用焼結体とした後に最終形状の歯科用修復物の形状に切削することで最終形状の歯科用修復物を得ることもできる。更に、歯科用仮焼結体を、天然歯形態の一部である歯科用修復物の形状に切削加工し、その後着色を行い、本焼成することで、最終形状の歯科用修復物を得ることもできる。
仮焼成温度や本焼成温度は無機粉末の組成や粒度によって異なるが、仮焼成温度に比べ、本焼成温度の方が100〜600℃高い温度である。本発明に好ましい仮焼成温度は800〜1500℃であり、本発明に好ましい本焼成温度は1100〜2100℃である。
着色材を含む着色液を浸透させた歯科用仮焼結体はもう一度仮焼成することができる。仮焼成をもう一度行うことで、着色液材を取り除くことができ、更に着色材を歯科用仮焼結体内に定着させることができる。
The dental temporary sintered body is a state in which inorganic powders are temporarily attached to each other in order to temporarily calcinate the inorganic powder after compression molding, and a continuous hole through which a colored liquid or a penetrating liquid described later can permeate between the powders. It is in the state which has. A dental temporary sintered body can be obtained by placing an inorganic powder in a mold, compression molding and pre-baking, and can also be obtained by molding using a CIM technique and pre-baking.
A dental colored temporary sintered body can be obtained by infiltrating a coloring material into the dental temporary sintered body. Since it is difficult to infiltrate the colorant directly into the dental temporary sintered body, the colorant and the color liquid material are mixed to form a color liquid. A colored colored sintered body can be obtained by coloring the bonded body. The colored liquid material is removed by vaporization or baking after the penetration of the coloring material.
The dental colored temporary sintered body colored with the dental temporary sintered body is cut into the shape of a dental restoration that is a part of the natural tooth form, and then fired to obtain a final shape dental restoration. Can be obtained. When cutting a dental restoration that is a part of a natural tooth form from a colored pre-sintered dental body, taking into account the shrinkage in the main firing, it expands to a similar shape of the final shape dental restoration The final shape of the dental restoration can be obtained by cutting into a finished shape and firing it. In addition, after the dental colored temporary sintered body is completely fired to obtain a dental sintered body, the final shape of the dental restoration can be obtained by cutting into a final shape of the dental restoration. Furthermore, the dental pre-sintered body is cut into the shape of a dental restoration that is a part of the natural tooth form, and then colored and fired to obtain a final shape dental restoration. You can also.
The calcination temperature and the main calcination temperature vary depending on the composition and particle size of the inorganic powder, but the main calcination temperature is higher by 100 to 600 ° C. than the calcination temperature. The pre-baking temperature preferable for the present invention is 800 to 1500 ° C, and the main baking temperature preferable for the present invention is 1100 to 2100 ° C.
The dental temporary sintered body infiltrated with the coloring liquid containing the coloring material can be temporarily fired once again. By performing the pre-baking again, the colored liquid material can be removed, and the coloring material can be fixed in the dental temporary sintered body.

歯科用仮焼結体に着色材を含む着色液を浸透させることで歯科用着色仮焼結体を作製するが、歯科用仮焼結体を大きく作製して、着色材を含む着色液を浸透させた後に歯科用着色仮焼結体を切り出すこともできる。この作製方法では着色材を含む着色液や浸透液材を含む浸透液が均一に浸透した歯科用着色仮焼結体を作製しやすい為である。
歯科用仮焼結体は、一辺が0.5〜3.0cmのブロック形状もしくは厚さが0.7〜3cmであって直径5〜15cmのディスク形状である。
A dental colored temporary sintered body is prepared by infiltrating a colored liquid containing a coloring material into a dental temporary sintered body, but a dental temporary sintered body is made large and a colored liquid containing a coloring material is infiltrated. It is also possible to cut out the dental colored pre-sintered body after having been made. This is because it is easy to produce a dental colored temporary sintered body in which a coloring liquid containing a coloring material or a penetrating liquid containing a penetrating liquid material uniformly penetrated.
The dental temporary sintered body is a block shape having a side of 0.5 to 3.0 cm or a disk shape having a thickness of 0.7 to 3 cm and a diameter of 5 to 15 cm.

着色材は歯科用仮焼結体を着色することができ、且つ、歯科用仮焼結体に浸透させ焼成しても色が残るものであれば特に限定するものではない。具体的には、周期表の第3〜12族の遷移金属の金属又は金属塩を、着色材に用いることができる。加えて、希土類金属又はそれらの塩も用いることができる。酸化物若しくは酸化物の形態の金属塩、またはCl−、SO4−、SO3−、Br−、F−、NO2−およびNO3−などの陰イオンを含有する金属塩を用いてもよい。適宜、これらの材料を混合して用いることが好ましい。
着色材の具体的例としては、鉄、マンガン、銅、クロム、ジルコニウム、コバルト、スズ、チタン、ニッケル、バナジウム、エルビウム、プラセオジム、テルビウム、ジスプロシウム、ユウロピウム、ニオブ、ネオジムおよび/ またはイッテルビウムを含む化合物が挙げられる。
着色材は歯科用仮焼結体中の無機粉末の間を着色液の構成成分である着色液材と共に浸透しなければならない。その為、無機粉末の平均粒子径に比べ着色材は小さいことが好ましい。好ましくは無機粉末の平均粒子径に比べ、着色材は1/4〜1/10000の大きさである。着色材の平均粒子径が大きければ無機粉末の間への浸透を抑制され、着色材の平均粒子径が小さければ発色を阻害する。具体的な着色材の平均粒子径は0.1nm〜10μmである。また、着色液中でイオン化して溶液となっていることは、歯科用仮焼結体中に着色液や浸透液が浸透するための物理的障害とならない為好ましい。
The coloring material is not particularly limited as long as it can color the dental temporary sintered body and can retain the color even if the dental temporary sintered body is infiltrated and fired. Specifically, metals or metal salts of Group 3-12 transition metals in the periodic table can be used as the coloring material. In addition, rare earth metals or their salts can also be used. Metal salts containing oxides or metal salts in oxide form or containing anions such as Cl-, SO4-, SO3-, Br-, F-, NO2- and NO3- may be used. It is preferable to use a mixture of these materials as appropriate.
Specific examples of the coloring material include compounds containing iron, manganese, copper, chromium, zirconium, cobalt, tin, titanium, nickel, vanadium, erbium, praseodymium, terbium, dysprosium, europium, niobium, neodymium and / or ytterbium. Can be mentioned.
The coloring material must penetrate between the inorganic powder in the dental temporary sintered body together with the coloring liquid material that is a constituent of the coloring liquid. Therefore, it is preferable that the colorant is smaller than the average particle size of the inorganic powder. Preferably, the colorant has a size of 1/4 to 1/10000 compared to the average particle size of the inorganic powder. If the average particle diameter of the colorant is large, the penetration into the inorganic powder is suppressed, and if the average particle diameter of the colorant is small, color development is inhibited. The average particle diameter of the specific colorant is 0.1 nm to 10 μm. Further, it is preferable that the solution is ionized in the coloring liquid because it does not cause a physical obstacle for the coloring liquid or the penetrating liquid to penetrate into the dental temporary sintered body.

着色液材は着色材を歯科用仮焼結体に浸透させるための、搬送媒体として用いる。着色液材は着色材が分散し、歯科用仮焼結体への濡れ性が高いものであれば特に限定されない。具体的な着色液材は水、メタノール、エタノール、n−プロパノール、イソプロピルアルコール、アセトン、メチルエチルケトンなどを含むことを挙げることができる。これら着色液材は必要に応じ複数を混合して用いることも可能である。水、エタノール、イソプロピルアルコール及びアセトンを含むことが好ましい。水であることが最も好ましい。
着色液は着色材と着色液材を含む混合物であり、配合割合は着色材0.0001〜30%、着色液材が70〜99.9999%である。着色液は色の異なる複数の着色液を用いることが好ましい。複数の色を用いることで色彩豊かな色調再現を実現することができる。歯科用仮焼結体を安定して濃く着色させるためには、着色液に歯科用仮焼結体に浸透させ、乾燥後に、繰り返し着色液や浸透液を浸透させることが好ましい。
浸透液は浸透液材を含む成分である。浸透液材は着色液に用いた着色液材と同成分であることが好ましい。歯科用仮焼結体に着色液や浸透液を浸漬する方法もあるが、歯科用仮焼結体に滴下にて浸透させることが好ましく、滴下量は0.01〜0.00001mlである。
また、歯科用仮焼結体を規定量の浸透液や着色液に浸漬することで、着色することもでき、更には塗布することもできる。歯科用仮焼結体の一端から浸漬することが好ましい。
The coloring liquid material is used as a carrier medium for allowing the coloring material to penetrate into the dental temporary sintered body. The coloring liquid material is not particularly limited as long as the coloring material is dispersed and the wettability to the dental temporary sintered body is high. Specific coloring liquid materials can include water, methanol, ethanol, n-propanol, isopropyl alcohol, acetone, methyl ethyl ketone, and the like. A plurality of these colored liquid materials can be mixed and used as necessary. It preferably contains water, ethanol, isopropyl alcohol and acetone. Most preferred is water.
The coloring liquid is a mixture containing a coloring material and a coloring liquid material, and the blending ratio is 0.0001 to 30% for the coloring material and 70 to 99.9999% for the coloring liquid material. It is preferable to use a plurality of colored liquids having different colors as the colored liquid. By using a plurality of colors, it is possible to realize a rich color reproduction. In order to stably and deeply color the dental temporary sintered body, it is preferable to infiltrate the dental temporary sintered body with the coloring liquid and repeatedly infiltrate the coloring liquid and the penetrating liquid after drying.
The penetrant is a component containing the penetrant material. The penetrating liquid material is preferably the same component as the colored liquid material used for the colored liquid. Although there is a method of immersing a coloring liquid or a penetrating liquid in the dental temporary sintered body, it is preferable to make the dental temporary sintered body penetrate by dripping, and the dripping amount is 0.01 to 0.00001 ml.
Further, the dental temporary sintered body can be colored by being immersed in a specified amount of penetrating liquid or coloring liquid, and further applied. It is preferable to immerse from one end of the dental temporary sintered body.

複数の着色液と浸透液を、歯科用仮焼結体に浸透させることが好ましい。例えば、着色液を浸透させた上に、着色材のことなる着色液を浸透させることや、着色材のことなる着色液を隣り合って浸透させることで歯科用仮焼結体中に色の異なる部分を自由に再現することができ、豊かな色表現をすることができる。着色を施さない部分には浸透液を浸透させることで、着色しない部分も再現することができる。着色材の異なる複数の色の着色液を用いて歯科用仮焼結体中を着色することで、色調再現することができる。
具体的にはマメロンを歯科用仮焼結体中に再現する為に、マメロンの形に着色液を塗布し浸透させるが、着色液を浸透させたくない部分に浸透液を塗布し浸透させることで、着色させたくない部分に着色液の進入を防止することができる。このように、着色液と浸透液を利用することで、マメロンを再現することができる。
It is preferable to allow a plurality of coloring liquids and penetrating liquid to penetrate into the dental temporary sintered body. For example, after the color liquid is infiltrated, the color liquid that is different from the colorant is infiltrated, or the color liquid that is different from the colorant is infiltrated adjacent to each other so that the color is different in the dental temporary sintered body. The part can be reproduced freely and rich color expression can be achieved. By impregnating the penetrating liquid into the portion that is not colored, the portion that is not colored can also be reproduced. By coloring the dental temporary sintered body using a plurality of colored liquids having different colorants, the color tone can be reproduced.
Specifically, in order to reproduce mamelon in the dental pre-sintered body, the colored liquid is applied and penetrated into the shape of the mammelon, but the permeated liquid is applied and penetrated into the portion where the colored liquid is not desired to penetrate. , It is possible to prevent the colored liquid from entering the portion that is not desired to be colored. In this way, the mamelon can be reproduced by using the coloring liquid and the penetrating liquid.

豊かな色表現をするために着色液と浸透液を細密に浸透させる方法は、着色液や浸透液をノズルに充填し先端から液滴を生成させ、歯科用仮焼結体に飛ばすことで歯科用仮焼結体中に浸透させ着色する方法が好ましい。本方法はインクジェット方式であり、この方法を採用することで、写真のように立体的に着色を施すこともできる。 The method of finely penetrating the coloring liquid and the penetrating liquid in order to express rich colors is to fill the nozzle with the coloring liquid or penetrating liquid, generate droplets from the tip, and then fly it to the dental temporary sintered body. A method of penetrating and coloring the presintered body for use is preferred. This method is an ink jet method, and by adopting this method, it is possible to color three-dimensionally like a photograph.

次に具体的に説明を行う。
歯科用仮焼結体は平均粒子径40nmのジルコニア粉末を15mm四角柱の形態に圧縮成型し、仮焼成することにより、相対密度が25、30、35、37、40、50%の歯科用仮焼結体を作製した。また、着色液は水に酸化鉄を3×10−3g/dm3の配合割合で分散させて作製した。以下、酸化鉄着色液という。
歯科用仮焼結体に酸化鉄着色液を0.1〜0.00001mlずつ滴下して1mmの厚さに着色し、その上に水から作製された浸透液を0.1〜0.00001mlずつ滴下して酸化鉄着色液を内部に浸透させた。酸化鉄着色液が5mm浸透したところで浸透液の滴下を終了した。
歯科用着色仮焼結体を80〜220℃で1〜3時間乾燥させ歯科用着色仮焼結体を得た。乾燥中に着色液や浸透液が移動することがあるため、着色時においては、計算にいれながら着色しなければならない。
着色液の滴下位置や滴下量を調整したり又は浸透液と共に滴下することで歯科用仮焼結体内部を自由に着色材が移動することができることから、内部も着色材でデザインされた歯科用着色仮焼結体や歯科用焼結体を得ることができる。
着色液同士や着色液と浸透液は、接触によりお互い混じり合いグラデーションを形成するために、ぼかし効果を描写することができる為、天然歯牙の色再現をすることができる。最初に浸透液を滴下した後に着色液を滴下することで容易にグラデーションを形成することができる。着色液間や着色液と浸透液の間でグラデーションやぼかしを起こさない様に着色する場合は、着色液または浸透液に使用する着色液材をそれぞれ混ざらず分離する材料を用いることで実現することができる。
相対密度が25、30、35、37、40、50%の歯科用仮焼結体を作製し、実施したところ、相対密度が25%の歯科用仮焼結体は強度が若干弱く、輸送に問題があり、一方、相対密度が50%の歯科用仮焼結体は相対密度が30、35、37、40%に比べ浸透性が遅く着色時間がかかることが分かった。相対密度が30、35%のものは、37、40%に比べて容易に浸透し好ましい。また、相対密度が37、40%のものは、30、35%に比べて強度があり、搬送などの観点から好ましい。
また、着色について、濃く着色したい場合は、着色液を濃くする方法の他に、歯科用仮焼結体を着色後に乾燥させ、改めて着色する方法がある。
更に、着色するタイミングについて、歯科用仮焼結体を歯科修復物と相似形に切削加工した後に、着色材を含む着色液及び浸透液材を含む浸透液にて着色することもでき、的確に歯科修復物に着色することができる。
Next, a specific description will be given.
The dental temporary sintered body is obtained by compressing and molding a zirconia powder having an average particle diameter of 40 nm into a 15 mm square column shape and calcining it, thereby obtaining a temporary density of 25, 30, 35, 37, 40, 50% relative density. A sintered body was produced. The coloring liquid was prepared by dispersing iron oxide in water at a blending ratio of 3 × 10 −3 g / dm 3 . Hereinafter, it is called iron oxide coloring liquid.
The iron oxide coloring liquid is dropped 0.1 to 0.00001 ml at a time on the dental presintered body to give a thickness of 1 mm, and 0.1 to 0.00001 ml of the penetrating liquid prepared from water is added on the colored body. It was dripped and the iron oxide coloring liquid was osmose | permeated inside. When the iron oxide coloring liquid penetrated 5 mm, the dropping of the penetrating liquid was terminated.
The dental colored temporary sintered body was dried at 80 to 220 ° C. for 1 to 3 hours to obtain a dental colored temporary sintered body. Since the coloring liquid and the penetrating liquid may move during drying, the coloring must be performed while calculating.
Since the coloring material can move freely inside the dental temporary sintered body by adjusting the dropping position and the dropping amount of the coloring liquid or by dropping together with the penetrating liquid, the inside is also designed with a coloring material. A colored pre-sintered body or a dental sintered body can be obtained.
Since the coloring liquids and the coloring liquid and the penetrating liquid are mixed with each other by contact to form a gradation, a blurring effect can be described, so that the color of the natural tooth can be reproduced. The gradation can be easily formed by first dropping the penetrating solution and then dropping the coloring solution. When coloring so as not to cause gradation or blurring between colored liquids or between colored liquid and penetrating liquid, it should be realized by using a material that separates the colored liquid material used in the colored liquid or penetrating liquid without mixing each other. Can do.
A dental temporary sintered body with a relative density of 25, 30, 35, 37, 40, 50% was prepared and carried out. The dental temporary sintered body with a relative density of 25% was slightly weaker and could be transported. On the other hand, it was found that a dental pre-sintered body having a relative density of 50% has a slower permeability and a longer coloring time than the relative densities of 30, 35, 37, and 40%. A material having a relative density of 30 and 35% is preferable because it penetrates more easily than 37 and 40%. Further, those having a relative density of 37 and 40% are stronger than those of 30 and 35%, and are preferable from the viewpoint of conveyance and the like.
As for coloring, there is a method of drying the dental temporary sintered body after coloring and coloring it again, in addition to the method of increasing the coloring liquid, when it is desired to darken the coloring liquid.
Furthermore, the timing of coloring can be colored with a coloring liquid containing a coloring material and a penetrating liquid containing a penetrating liquid material after the dental temporary sintered body is cut into a shape similar to that of a dental restoration. The dental restoration can be colored.

次に図面に示した模式図を用いて、着色液や浸透液を浸漬にて着色する場合について説明を行う。
図1のAは歯科用仮焼結体を示し、歯科用仮焼結体を酸化鉄着色液の入ったシャレーの上に置くところを示す模式図である。
図2は図1で酸化鉄着色液が歯科用仮焼結体に浸透した状態を示す模式図である。Bの部分は酸化鉄着色液が浸透した部分をであり、Aの部分は着色液が浸透していない部分であり、2層を形成している。更に酸化鉄着色液を浸透させることでBの部分を厚くすることができる。
図3は図2で示す歯科用仮焼結体の酸化鉄着色液が浸透した部分を浸透液の入ったシャレーの上に置くところを示す模式図である。
図4は図3で浸透液が歯科用仮焼結体に浸透した状態を示す模式図である。Cの部分は浸透液が浸透した部分、Bの部分は酸化鉄着色液が浸透した部分、そしてAの部分は着色液が浸透していない部分をそれぞれ示し、3層を形成している。更に浸透液を浸透させることでCの部分を厚くすることができる。ここでは層状に着色液を浸漬しているが、酸化鉄着色液と浸透液を同時に浸漬することで、酸化鉄で着色された部分と着色されていない部分を得ることもできる。
他の色で作製された着色液を用いることで、他の色に着色することを容易にすることができる。
Next, the case where the coloring liquid or the penetrating liquid is colored by immersion will be described using the schematic diagram shown in the drawing.
FIG. 1A shows a dental temporary sintered body, and is a schematic view showing the dental temporary sintered body placed on a chalet containing an iron oxide coloring liquid.
FIG. 2 is a schematic view showing a state in which the iron oxide coloring liquid has penetrated into the dental temporary sintered body in FIG. The part B is a part where the iron oxide coloring liquid penetrates, and the part A is a part where the coloring liquid does not penetrate, forming two layers. Further, the portion B can be thickened by infiltrating the iron oxide coloring liquid.
FIG. 3 is a schematic view showing a portion of the dental temporary sintered body shown in FIG. 2 in which the iron oxide coloring liquid penetrates is placed on the chalet containing the penetration liquid.
FIG. 4 is a schematic view showing a state in which the penetrant has penetrated into the dental temporary sintered body in FIG. The part C is a part in which the penetrating liquid has permeated, the part B is a part in which the iron oxide coloring liquid has permeated, and the part A is a part in which the coloring liquid has not permeated. Further, the portion C can be thickened by infiltrating the permeating liquid. Here, the colored liquid is immersed in a layered manner, but by simultaneously immersing the iron oxide colored liquid and the penetrating liquid, a portion colored with iron oxide and a portion not colored can be obtained.
By using a colored liquid prepared in another color, it is possible to easily color in another color.

(試料の作製)
ジルコニア97%、イットリア3%の無機粉末をブロック状に圧縮成形し、相対密度が25、30、35、57、40、50%の歯科用仮焼結体を作製した。その後、直径1.5mm、長さ2.5mmのディスク状に切削成形した。平均粒径1μmの酸化鉄を水に分散させた着色液を調製した。浸透液材として水を用い、浸透液材からなる100%とした。
(試験方法)
試験1:
2ccの着色液が入ったシャーレーに歯科用仮焼結体を浸漬し、着色液を浸透させた。その後、3ccの水が入ったシャーレーに、前述の歯科用仮焼結体を浸漬し浸透液を浸透させた。その後、乾燥させ、歯科修復物の形状である歯冠形状に切削加工後に、1450℃で12時間かけて焼成した。
試験2:
歯科用仮焼結体を歯科修復物の形状である歯冠形状に切削加工後、0.5ccの着色液を歯科修復物に塗布して、着色液を浸透させた。浸透後に、0.5ccの水を歯科修復物に塗布し、歯科修復物に浸透液を浸透させた。その後、乾燥させ、1450℃で12時間かけて焼成した。
(評価方法)
歯科用仮焼結体の輸送試験:
歯科用仮焼結体をスポンジで包み、紙製の箱に入れ、日本、米国、日本と経由する様に輸送し、破損状況を確認した。全く破損がないものを1、隅に欠けがあるものを2、大きく破損しているものを3として評価した。
着色試験:
着色液および浸透液の着色度について、評価した。下記の評価基準で評価した。
歯科用仮焼結体に浸透若しくは塗布しはじめてから20分後において、着色液および浸透液の両方が深く浸透した場合は1、浅く浸透した場合を3、浅くも深くもない場合は2として評価した。浸透した着色液と浸透液の移行部分が歯科用仮焼結体の長さ方向に0.5−1.0cmの範囲にある場合を浅くも深くもない場合とした。
(Sample preparation)
Inorganic powders of 97% zirconia and 3% yttria were compression-molded into blocks to prepare dental temporary sintered bodies having relative densities of 25, 30, 35, 57, 40, and 50%. Thereafter, it was cut and formed into a disk shape having a diameter of 1.5 mm and a length of 2.5 mm. A colored liquid in which iron oxide having an average particle diameter of 1 μm was dispersed in water was prepared. Water was used as the osmotic liquid material, and the content of the osmotic liquid material was 100%.
(Test method)
Exam 1:
The dental temporary sintered body was immersed in a petri dish containing 2 cc of the coloring liquid, and the coloring liquid was infiltrated. Thereafter, the dental pre-sintered body was immersed in a petri dish containing 3 cc of water to infiltrate the permeating solution. Thereafter, it was dried, cut into a crown shape, which was the shape of a dental restoration, and then fired at 1450 ° C. for 12 hours.
Test 2:
After cutting the dental temporary sintered body into a crown shape, which is the shape of a dental restoration, 0.5 cc of a coloring liquid was applied to the dental restoration, and the coloring liquid was infiltrated. After penetration, 0.5 cc of water was applied to the dental restoration and the dental restoration was infiltrated with the penetrant. Thereafter, it was dried and baked at 1450 ° C. for 12 hours.
(Evaluation method)
Transport test of temporary dental sintered body:
The dental pre-sintered body was wrapped with a sponge, placed in a paper box, and transported through Japan, the United States, and Japan, and the damage situation was confirmed. Evaluation was made with 1 indicating no damage at all, 2 having chipped corners, and 3 having large damage.
Coloring test:
The coloring liquid and penetrating liquid were evaluated for degree of coloring. Evaluation was performed according to the following evaluation criteria.
20 minutes after starting to penetrate or apply to the dental pre-sintered body, it is evaluated as 1 when both the coloring liquid and the penetrating liquid penetrate deeply, 3 when shallowly penetrated, and 2 when neither deep nor deeply penetrated. did. The case where the penetration portion of the permeated colored liquid and the penetrating liquid is in the range of 0.5 to 1.0 cm in the length direction of the dental temporary sintered body is defined as not being shallow or deep.


Figure 2018143393
Figure 2018143393

比較例1・3の相対密度が25%である歯科用仮焼結体の輸送時においては、大きく破損するなどの問題が発生する可能性が高い。
比較例2・4の相対密度が50%では着色材の浸透性能に問題があり、着色に時間を要する。
実施例1・2・5・6の相対密度が30-35%である歯科用仮焼結体の輸送時においては、部分的に破損するなどの問題が発生する可能性があるが、十分な包装材料を用いれば回避可能である。着色性は問題がない。
実施例3・4・7・8の相対密度が37-40%では着色性に問題が発生する可能性があるが、臨床上使用できる範囲である。輸送試験は問題がない。
When the dental temporary sintered body having a relative density of Comparative Examples 1 and 3 of 25% is transported, there is a high possibility that problems such as large breakage will occur.
When the relative density of Comparative Examples 2 and 4 is 50%, there is a problem in the permeation performance of the coloring material, and it takes time for coloring.
When transporting a dental temporary sintered body in which the relative density of Examples 1, 2, 5 and 6 is 30-35%, problems such as partial breakage may occur, but sufficient This can be avoided by using packaging materials. There is no problem with coloring.
When the relative density of Examples 3, 4, 7, and 8 is 37 to 40%, there may be a problem in coloring, but this is within the range that can be used clinically. There is no problem in the transportation test.

次に本発明の歯科用CADCAM用被切削体の実施形態について説明する。
本発明の歯科用CADCAM用被切削体の素材は特に限定されることがなく、樹脂材料、無機材料、複合材料などのいずれにおいても用いることができる。樹脂材料としてはアクリル系樹脂材料が好ましく、無機材料としてはセラミックス材料であり、具体的にはアルミノシリケートガラス、ジルコニア、アルミナが好ましく、複合材料はアクリル系樹脂材料に無機粉末を混合した材料を好ましく用いることができる。
特に好ましい歯科用CADCAM用被切削体の素材は、焼結されていない或いは最終焼結されていないセラミック材料である。この場合、セラミック材料は、アルミナまたはジルコニアの成分が95%以上であり、セラミック材料の1次平均粒子径は0.01〜10μmであることが好ましい。
Next, an embodiment of a workpiece for dental CADCAM according to the present invention will be described.
There are no particular limitations on the material of the dental CADCAM workpiece to be used in the present invention, and any material such as a resin material, an inorganic material, or a composite material can be used. The resin material is preferably an acrylic resin material, the inorganic material is a ceramic material, specifically aluminosilicate glass, zirconia, or alumina, and the composite material is preferably a material obtained by mixing an acrylic resin material with inorganic powder. Can be used.
A particularly preferable raw material for the dental CADCAM workpiece is an unsintered or final sintered ceramic material. In this case, the ceramic material preferably contains 95% or more of alumina or zirconia, and the primary average particle size of the ceramic material is preferably 0.01 to 10 μm.

本発明の歯科用CADCAM用被切削体はCADCAM技術を用いて歯科修復物を彫りだすための成型体であって、材料を型に入れ、加圧することで成型を行い、加熱することで硬化又は仮焼成させることで得られるものである。歯科用CADCAM用被切削体は略円柱形状であり、例えば直径が5-15cm、高さが0.7-3.0cmの大きさとすることができる。
本発明の歯科用CADCAM用被切削体は、単色の1層構造としてもよく、あるいは色調の異なる層を重ね合わせて成型加工することにより製造してもよく、この場合2〜8層構造にすることができる。その中でも、少なくともエナメル色、デンチン色、歯頚部色の3層で構成されていることが好ましい。
The dental CADCAM workpiece to be cut according to the present invention is a molded body for engraving a dental restoration using CADCAM technology. The material is placed in a mold, pressed by pressing, and cured by heating. It is obtained by prefiring. The to-be-cut object for dental CADCAM has a substantially cylindrical shape, and can have a diameter of 5-15 cm and a height of 0.7-3.0 cm, for example.
The dental CADCAM workpiece to be cut according to the present invention may have a single-color single-layer structure, or may be manufactured by overlapping and molding layers having different color tones, and in this case, a 2- to 8-layer structure is formed. be able to. Among these, it is preferable to be composed of at least three layers of enamel color, dentin color, and tooth neck color.

本発明の歯科用CADCAM用被切削体は、円周部に少なくとも一つの凹部を有する。この凹部は、歯科用CADCAM用被切削体の円周部の全周に亘っておらず、歯科用CADCAM用被切削体をCADCAM装置に設置する際に、CADCAM装置に係合する部分である。
本発明の歯科用CADCAM用被切削体の円周部の凹部は、歯科用CADCAM用被切削体を天面側または底面側から見た場合に、略円柱形状の歯科用CADCAM用被切削体の重心を中心として、中心角が330度以上360度未満の範囲に亘って形成されていることが好ましい。中心角が330度以下の場合、歯科用CADCAM用被切削体を設置するCAMと歯科用CADCAM用被切削体とが接触する部分が減り、接触部分への負担が増大することで、安定した設置が阻害されることがある。中心角が330度以上の範囲に亘って形成された被切削体に設けた円周部の凹部は、連続して形成されていることが好ましい。
また、歯科用CADCAM用被切削体を天面側または底面側から見た場合に、略円柱形状の歯科用CADCAM用被切削体の円周部における凹部が形成されていない円弧部分の円周面上の長さは1-20mmであることが好ましい。略切欠円筒状の凹部が形成されていない円弧部分の円周面上の長さが1mm以下になると、凹部が形成されていない円弧部分は破損しやすくなる。略切欠円筒状の凹部が形成されていない円弧部分の円周面上の長さが20mm以上であれば、凹部が形成されていない円弧部分での位置関係が判別しづらくなり、CAMとの接する部分が減り、安定した固定を阻害するばかりか、略円柱形状の凹部が破損し易くなる。
The to-be-cut object for dental CADCAM of the present invention has at least one concave portion in the circumferential portion. The recess does not extend over the entire circumference of the circumferential portion of the dental CADCAM workpiece, and is a portion that engages with the CADCAM device when the dental CADCAM workpiece is installed in the CADCAM device.
The concave portion of the circumferential portion of the dental CADCAM workpiece to be cut according to the present invention has a substantially cylindrical shape when the dental CADCAM workpiece is viewed from the top surface or the bottom surface. The center angle is preferably formed over a range of 330 degrees or more and less than 360 degrees with the center of gravity at the center. When the central angle is 330 degrees or less, the CAM where the dental CADCAM workpiece is placed and the portion where the dental CADCAM workpiece is in contact are reduced, and the burden on the contact portion is increased, resulting in a stable installation. May be inhibited. It is preferable that the concave portion of the circumferential portion provided in the body to be cut formed with a central angle over a range of 330 degrees or more is formed continuously.
Further, when the dental CADCAM workpiece is viewed from the top surface or the bottom surface, the circumferential surface of the arc portion where the concave portion is not formed in the circumferential portion of the substantially cylindrical dental CADCAM workpiece. The upper length is preferably 1-20 mm. If the length of the circular arc portion in which the substantially concave cylindrical concave portion is not formed is 1 mm or less, the circular arc portion in which the concave portion is not formed is easily damaged. If the length on the circumferential surface of the circular arc portion in which the substantially concave cylindrical concave portion is not formed is 20 mm or more, it becomes difficult to determine the positional relationship in the circular arc portion in which the concave portion is not formed, and it makes contact with the CAM. The portion is reduced and the stable fixing is hindered, and the substantially cylindrical recess is easily damaged.

円周部の凹部は、歯科用CADCAM用被切削体の軸方向における寸法が1-5mmの範囲であることが好ましく、円周面から中心軸(歯科用CADCAM用被切削体を天面側または底面側から見た場合の重心(中心)上の軸)に向かう寸法(径方向の寸法)が、1-5mmであることが好ましい。これらの範囲を下回る場合には、円弧部分は破損しやすくなり、またこれら範囲を超えるとCAM装置への安定した装着を阻害することがある。
円周部の凹部の形状は、歯科用CADCAM用被切削体を、中心軸を含む面に沿って切断した場合に、「L」字形であることが好ましい。この場合、凹部が存在する範囲であれば、歯科用CADCAM用被切削体を、中心軸を含むいずれの面に沿って切断しても「L」字形であることが好ましい。「L」字形の形状は中心軸に平行な面と中心軸に垂直な面とで構成されていることが好ましい。CAM装置への安定した装着が可能となり、緩みなく係合することができる。
The concave portion of the circumferential portion preferably has a dimension in the axial direction of the dental CADCAM workpiece to be cut within the range of 1 to 5 mm, from the circumferential surface to the central axis (the dental CADCAM workpiece to be cut on the top side or The dimension (dimension in the radial direction) toward the center of gravity (center axis) when viewed from the bottom side is preferably 1-5 mm. If it falls below these ranges, the arc portion tends to break, and if it exceeds these ranges, stable attachment to the CAM device may be hindered.
The shape of the concave portion of the circumferential portion is preferably an “L” shape when the dental CADCAM workpiece is cut along a plane including the central axis. In this case, as long as the concave portion is present, the dental CADCAM workpiece is preferably “L” -shaped even if it is cut along any surface including the central axis. The “L” shape is preferably composed of a plane parallel to the central axis and a plane perpendicular to the central axis. Stable attachment to the CAM device is possible, and it is possible to engage without loosening.

次に図面を参照して、本発明の具体的な実施形態について説明する。
図5は本実施形態の歯科用CADCAM用被切削体1を、略円柱の天面1aもしくは底面1b方向から見た図面(平面図)である。歯科用CADCAM用被切削体1は、円周部(側面)1cに一対の凹部2及び3を有し、この一対の凹部2及び3は、円周部1cの全周に亘っておらず、図5の上方に凹部となっていない円弧部分4を有している。本実施形態では、凹部2は、CADCAM用被切削体1の天面1aに開口しており、凹部3はCADCAM用被切削体1の底面1bに開口している。しかしながら、凹部2及び3を天面及び底面に開口しないように設けてもよい。この凹部2及び3は、CADCAM装置に係合する部分である。
図6は本実施形態の歯科用CADCAM用被切削体1を、凹部となっていない円弧部分4側の略円柱の側面(円周部1c)方向から見た図面である。図6に示すように、歯科用CADCAM用被切削体1は、円周部1cに凹部2及び3を有している。図6においては、図5では示せなかった凹部2又は凹部3が示されている。図6に示すように、凹部2及び3は円周部1cの全周に亘っておらず、歯科用CADCAM用被切削体1は、図6の中心部に凹部となっていない円弧部分4を有している。このように、本実施形態の歯科用CADCAM用被切削体1は、凹部となっていない円弧部分4を、円周部1cの全周に亘らないように有している。そのため、本実施形態の歯科用CADCAM用被切削体1では、一対の凹部2及び3は、円周部1cの全周に亘っていない。
このような本実施形態の歯科用CADCAM用被切削体1では、円周部1cの全周に亘らない凹部となっていない部分円弧4により、周方向の位置決めが可能となっている。
Next, specific embodiments of the present invention will be described with reference to the drawings.
FIG. 5 is a drawing (plan view) of the dental CADCAM workpiece 1 of the present embodiment as viewed from the top surface 1a or bottom surface 1b direction of a substantially cylindrical shape. The dental CADCAM workpiece 1 has a pair of recesses 2 and 3 in the circumferential portion (side surface) 1c, and the pair of recesses 2 and 3 does not extend over the entire circumference of the circumferential portion 1c. An arc portion 4 that is not a concave portion is provided in the upper part of FIG. In the present embodiment, the recess 2 is opened on the top surface 1 a of the CADCAM workpiece 1, and the recess 3 is opened on the bottom 1 b of the CADCAM workpiece 1. However, you may provide the recessed parts 2 and 3 so that it may not open to a top | upper surface and a bottom face. The recesses 2 and 3 are portions that engage the CADCAM device.
FIG. 6 is a view of the dental CADCAM workpiece 1 of this embodiment as viewed from the side of the substantially circular column (circumferential portion 1c) on the arc portion 4 side that is not a recess. As shown in FIG. 6, the dental CADCAM workpiece 1 has recesses 2 and 3 in a circumferential portion 1c. In FIG. 6, the recessed part 2 or the recessed part 3 which was not shown in FIG. 5 is shown. As shown in FIG. 6, the recesses 2 and 3 do not extend over the entire circumference of the circumferential portion 1c, and the dental CADCAM workpiece 1 has a circular arc portion 4 that is not a recess in the center of FIG. Have. Thus, the dental CADCAM workpiece 1 of the present embodiment has the arc portion 4 that is not a recess so as not to extend over the entire circumference of the circumferential portion 1c. Therefore, in the dental CADCAM workpiece 1 of the present embodiment, the pair of recesses 2 and 3 do not extend over the entire circumference of the circumferential portion 1c.
In the dental CADCAM workpiece 1 of this embodiment, the circumferential positioning is possible by the partial arc 4 that is not a recess extending over the entire circumference of the circumferential portion 1c.

図7及び図8は、本実施形態の歯科用CADCAM用被切削体1における寸法等を説明するために、図5及び図6の図面に補助線などを加えた図である。
図7に示すように、本実施形態の凹部2及び3は、歯科用CADCAM用被切削体1を天面1a側または底面1b側から見た場合に、略円柱形状の歯科用CADCAM用被切削体1の重心(中心)CGを中心として、中心角θが330度以上360度未満となる範囲に亘って連続して形成されている。本実施形態では、凹部2及び3は、歯科用CADCAM用被切削体1を天面1a側または底面1b側から見た場合に、重心(中心)CGを中心として、同じ範囲に形成されている。
また、本実施形態では、略円柱形状の歯科用CADCAM用被切削体1の円周部1cにおける凹部2及び3が形成されていない円弧部分4の円周面1c上の長さ(円周方向における凹部の一端と他端との間隔)Lは、1-20mmである。
また、本実施形態では、円周部1cの凹部2及び3の歯科用CADCAM用被切削体1の軸方向AXにおける寸法2h及び3hは、1-5mmの範囲である。本実施形態では、凹部2の軸方向AXにおける寸法2hと、凹部3の軸方向AXにおける寸法3hとは同じ寸法を有している。しかしながら、凹部2の軸方向AXにおける寸法2hと凹部3の軸方向AXにおける寸法3hとは異なる寸法であってもよい。
また、本実施形態の凹部2及び3は、円周面1cから中心軸(歯科用CADCAM用被切削体1を天面1b側または底面1c側から見た場合の重心(中心)CG上の軸)CXに向かう寸法(径方向の寸法)2w及び3wがいずれも、1-5mmの範囲にある。本実施形態では、凹部2の円周面1cから中心軸CXに向かう寸法2wと、凹部3の円周面1cから中心軸CXに向かう寸法3wとは同じ寸法を有しているが、互いに異なる寸法でもよい。
なお、本実施形態の歯科用CADCAM用被切削体1は、略円柱形状の直径Dが5-15cmの範囲にあり、高さHが0.7-3.0cmの範囲とすることができる。
7 and 8 are diagrams in which auxiliary lines and the like are added to the drawings of FIGS. 5 and 6 in order to explain dimensions and the like in the dental CADCAM workpiece 1 of the present embodiment.
As shown in FIG. 7, the concave portions 2 and 3 of the present embodiment have a substantially cylindrical shape for CADCADAM to be cut when the dental CADCAM workpiece 1 is viewed from the top surface 1a side or the bottom surface 1b side. With the center of gravity (center) CG of the body 1 as the center, the center angle θ is continuously formed over a range of 330 degrees to less than 360 degrees. In the present embodiment, the recesses 2 and 3 are formed in the same range around the center of gravity (center) CG when the dental CADCAM workpiece 1 is viewed from the top surface 1a side or the bottom surface 1b side. .
Moreover, in this embodiment, the length (circumferential direction) of the circular arc part 4 in which the recessed part 2 and 3 in the circumferential part 1c of the to-be-cut body 1 for dental CADCAM having a substantially cylindrical shape are not formed. The distance L between one end and the other end of the recess is 1-20 mm.
In the present embodiment, the dimensions 2h and 3h of the concave portions 2 and 3 of the circumferential portion 1c in the axial direction AX of the dental CADCAM workpiece 1 are in the range of 1-5 mm. In the present embodiment, the dimension 2h in the axial direction AX of the recess 2 and the dimension 3h in the axial direction AX of the recess 3 have the same dimension. However, the dimension 2h in the axial direction AX of the recess 2 and the dimension 3h in the axial direction AX of the recess 3 may be different.
In addition, the recesses 2 and 3 of the present embodiment have a central axis (center) CG axis when the dental CADCAM workpiece 1 is viewed from the top surface 1b side or the bottom surface 1c side from the circumferential surface 1c. ) The dimension (diameter dimension) 2w and 3w toward CX are both in the range of 1-5 mm. In the present embodiment, the dimension 2w from the circumferential surface 1c of the recess 2 toward the central axis CX and the dimension 3w from the circumferential surface 1c of the recess 3 toward the central axis CX have the same dimensions, but are different from each other. It may be a dimension.
In addition, the dental CADCAM workpiece 1 of the present embodiment can have a substantially cylindrical diameter D in the range of 5-15 cm and a height H in the range of 0.7-3.0 cm.

本実施形態の歯科用CADCAM用被切削体1は、エナメル色を有する層、デンチン色を有する層、及び、歯頚部色を有する層の3層で構成されており、凹部2は、エナメル色を有する層の軸方向AXの全体に亘って形成されており、凹部3は、歯頚部色を有する層の軸方向AXの全体に亘って形成されている。さらに、本実施形態では、エナメル色を有する層、デンチン色を有する層、及び、歯頚部色を有する層は、歯科用CADCAM用被切削体1の軸方向AXにおける寸法が互いに同じになるように構成されている。 The dental CADCAM workpiece 1 of the present embodiment is composed of three layers of an enamel color layer, a dentin color layer, and a tooth neck color layer, and the recess 2 has an enamel color. The concave portion 3 is formed over the entire axial direction AX of the layer having the cervical color. Furthermore, in the present embodiment, the layer having the enamel color, the layer having the dentin color, and the layer having the tooth neck color are set to have the same dimension in the axial direction AX of the dental CADCAM workpiece 1. It is configured.

また、図8に示すように、本実施形態の凹部2及び3は、歯科用CADCAM用被切削体1を、歯科用CADCAM用被切削体1の中心軸CXを含む面に沿って切断した場合に、「L」字形の形状となるように形成されている。特に本実施形態では、凹部が存在する範囲であれば、歯科用CADCAM用被切削体1を、中心軸CXを含むいずれの面に沿って切断しても「L」字形でとなる形状を有している。具体的には、凹部2及び3は、中心軸CXに平行な面2a又は3aと中心軸CXに垂直な面2b及び3bとで構成されている。 Moreover, as shown in FIG. 8, the recessed parts 2 and 3 of this embodiment are the case where the to-be-cut object 1 for dental CADCAM is cut | disconnected along the surface containing the central axis CX of the to-be-cut object 1 for dental CADCAM. In addition, it is formed to have an “L” shape. In particular, in the present embodiment, the dental CADCAM workpiece 1 has a shape that is “L” -shaped even if it is cut along any surface including the central axis CX, as long as the concave portion exists. doing. Specifically, the recesses 2 and 3 are composed of a surface 2a or 3a parallel to the central axis CX and surfaces 2b and 3b perpendicular to the central axis CX.

図9は従来の歯科用CADCAM用被切削体を示し、略円柱の天面もしくは底面方向から見た平面図である。従来の歯科用CADCAM用被切削体では、円周部に凹部を有し、この凹部を全周に亘って有することが分かる。
図10は従来の歯科用CADCAM用被切削体を、略円柱の側面方向から見た側面図である。従来の歯科用CADCAM用被切削体では、円周部に凹部を2箇所有し、この凹部を全周に亘って有することが分かる。
FIG. 9 shows a conventional dental CADCAM workpiece, and is a plan view seen from the top or bottom direction of a substantially cylindrical shape. It can be seen that the conventional dental CADCAM workpiece has a recess in the circumferential portion and has this recess over the entire circumference.
FIG. 10 is a side view of a conventional dental CADCAM workpiece cut from the side surface direction of a substantially circular cylinder. It can be seen that a conventional dental CADCAM workpiece has two recesses in the circumferential portion and has these recesses over the entire circumference.

図11は、本発明の第2の実施形態の歯科用CADCAM用被切削体1を、凹部となっていない円弧部分4側の略円柱の側面方向から見た側面図である。本実施形態では、歯科用CADCAM用被切削体1を天面1a側または底面1b側から見た場合に、凹部2が、凹部3よりも、重心(中心)CGを中心として、広い範囲に形成されている点が図5の実施形態と異なっている。このように、凹部2の形状と凹部3の形状とを異ならせることにより、歯科用CADCAM用被切削体1の軸方向AXにおける方向性を確認することができ、歯科修復物を切削した被切削体の残部から歯科修復物をさらに切削加工できる様に、さらに容易に設置することができる。
なお、凹部2の形状と凹部3の形状とを異ならせる態様としては、例えば、歯科用CADCAM用被切削体1の軸方向における凹部の寸法を互いに異なるせる態様、歯科用CADCAM用被切削体1の中心軸CXに向かう凹部の寸法を互いに異なるせる態様、歯科用CADCAM用被切削体1の中心軸CXを含む面に沿って切断した場合の凹部の形状を互いに異なるせる態様(例えば「L」字形状と円弧形状)がある。
FIG. 11: is the side view which looked at the to-be-cut object 1 for dental CADCAM of the 2nd Embodiment of this invention from the side surface direction of the substantially cylinder by the side of the circular arc part 4 which is not a recessed part. In this embodiment, when the dental CADCAM workpiece 1 is viewed from the top surface 1a side or the bottom surface 1b side, the concave portion 2 is formed in a wider range with the center of gravity (center) CG as the center than the concave portion 3. This is different from the embodiment of FIG. In this way, by making the shape of the recess 2 different from the shape of the recess 3, the directionality in the axial direction AX of the dental CADCAM workpiece 1 can be confirmed, and the dental restoration is cut. It can be installed more easily so that the dental restoration can be further cut from the rest of the body.
In addition, as an aspect which makes the shape of the recessed part 2 and the shape of the recessed part 3 differ, the aspect which makes the dimension of the recessed part in the axial direction of the to-be-cut object 1 for dental CADCAM mutually differ, for example, the to-be-cut object 1 for dental CADCAM The aspect which makes the dimension of the recessed part which goes to the central axis CX differ from each other, the aspect which makes the shape of the recessed part different from each other when cut along the surface including the central axis CX of the workpiece 1 for dental CADCAM (for example, “L”) Character shape and arc shape).

図12は、本発明の第3の実施形態の歯科用CADCAM用被切削体1を、凹部となっていない円弧部分4側の略円柱の側面方向から見た側面図である。本実施形態の歯科用CADCAM用被切削体1は、CADCAM用被切削体1の天面1aに開口する凹部2のみを有しており、CADCAM用被切削体1の底面1bに開口する凹部3を有していない点が図5の実施形態と異なっている。このように、天面1a(又は底面1b)にのみ凹部2を設けることによっても、歯科用CADCAM用被切削体1の軸方向AXにおける方向性を確認することができ、歯科修復物を切削した被切削体の残部から歯科修復物をさらに切削加工できる様に、さらに容易に設置することができる。 FIG. 12 is a side view of the dental CADCAM workpiece 1 according to the third embodiment of the present invention as viewed from the side of the substantially circular column on the arc portion 4 side that is not a recess. The dental CADCAM workpiece 1 of this embodiment has only a recess 2 that opens in the top surface 1a of the CADCAM workpiece 1 and a recess 3 that opens in the bottom 1b of the CADCAM workpiece 1. 5 is different from the embodiment of FIG. Thus, also by providing the concave portion 2 only on the top surface 1a (or the bottom surface 1b), the directionality in the axial direction AX of the dental CADCAM workpiece 1 can be confirmed, and the dental restoration is cut. It can be installed more easily so that the dental restoration can be further cut from the remainder of the workpiece.

図13は、本発明の第4の実施形態の歯科用CADCAM用被切削体1を、凹部となっていない円弧部分4側の略円柱の側面方向から見た側面図である。本実施形態の歯科用CADCAM用被切削体1は、CADCAM用被切削体1の天面1a及び底面1bのいずれにも開口しない凹部5のみを有している点が図5の実施形態と異なっている。特に本実施形態では、エナメル色を有する層と歯頚部色を有する層とに挟まれたデンチン色を有する層の軸方向AXの全体に亘って凹部5が形成されている。 FIG. 13: is the side view which looked at the to-be-cut object 1 for dental CADCAM of the 4th Embodiment of this invention from the side surface direction of the substantially cylinder by the side of the circular arc part 4 which is not a recessed part. The dental CADCAM workpiece 1 of this embodiment differs from the embodiment of FIG. 5 in that it has only a recess 5 that does not open on either the top surface 1a or the bottom surface 1b of the CADCAM workpiece 1. ing. In particular, in this embodiment, the recessed part 5 is formed over the whole axial direction AX of the layer which has a dentin color sandwiched between the layer which has an enamel color and the layer which has a tooth neck part color.

上記実施形態の発明の構成は、例えば以下のように記載することができるが、これらの記載に限定されるものではない。
(1)CADCAM装置に装着して歯科修復物を製造する歯科用CADCAM用被切削体において、歯科用CADCAM用被切削体が略円柱形状であり、
歯科用CADCAM用被切削体の円周部に少なくとも一つの凹部を有し、凹部は歯科用CADCAM用被切削体の円周部の全周に亘っておらず、
歯科用CADCAM用被切削体の凹部がCADCAM装置に係合することを特徴とする歯科用CADCAM用被切削体。
The configuration of the invention of the above embodiment can be described, for example, as follows, but is not limited to these descriptions.
(1) In a dental CADCAM workpiece to be mounted on a CADCAM device to produce a dental restoration, the dental CADCAM workpiece is substantially cylindrical.
The circumferential portion of the dental CADCAM workpiece is provided with at least one concave portion, and the concave portion does not extend over the entire circumference of the circumferential portion of the dental CADCAM workpiece,
A dental CADCAM workpiece, wherein a concave portion of the dental CADCAM workpiece is engaged with a CADCAM device.

(2)上記(1)記載の歯科用CADCAM用被切削体において、略円柱形状の天面および底面それぞれに対して一つの凹部を有することを特徴とする歯科用CADCAM用被切削体。 (2) The dental CADCAM workpiece to be cut according to (1), wherein the dental CADCAM workpiece has one concave portion for each of a substantially cylindrical top surface and bottom surface.

(3)上記(1)記載の歯科用CADCAM用被切削体において、円周部の凹部が、歯科用CADCAM用被切削体を天面側または底面側から見た場合に、略円柱形状の歯科用CADCAM用被切削体の重心を中心として、中心角が330度以上360度未満の範囲に亘って形成され、略円柱形状の歯科用CADCAM用被切削体の円周部における凹部が形成されていない円弧部分の円周面上の長さは1-20mmであることを特徴とする歯科用CADCAM用被切削体。 (3) In the dental CADCAM workpiece as described in (1) above, the concave portion of the circumferential portion has a substantially cylindrical shape when the dental CADCAM workpiece is viewed from the top or bottom side. A center angle is formed over a range of 330 degrees or more and less than 360 degrees with the center of gravity of the CADCAD workpiece to be cut as a center, and a concave portion is formed in the circumferential portion of the substantially CAD-shaped dental CADCAM workpiece. A cut object for dental CADCAM, wherein the length of the circular arc portion on the circumferential surface is 1-20 mm.

(4)上記(1)記載の歯科用CADCAM用被切削体において、円周部の凹部の歯科用CADCAM用被切削体の軸方向における寸法が1-5mmの範囲にあり、円周面から歯科用CADCAM用被切削体の中心軸に向かう寸法が1-5mmの範囲にあることを特徴とする歯科用CADCAM用被切削体。 (4) In the dental CADCAM workpiece as described in (1) above, the axial dimension of the dental CADCAM workpiece in the concave portion of the circumferential portion is in the range of 1-5 mm. The dental CADCAM workpiece is characterized in that the dimension toward the central axis of the CADCAM workpiece for use is in the range of 1-5 mm.

(5)上記(1)記載の歯科用CADCAM用被切削体において、略円柱形状の直径が5-15cm、高さが0.7-3.0cmであることを特徴とする歯科用CADCAM用被切削体。 (5) The dental CADCAM workpiece according to (1), wherein the cylindrical CADCAM workpiece has a substantially cylindrical diameter of 5-15 cm and a height of 0.7-3.0 cm.

(6)上記(1)記載の歯科用CADCAM用被切削体が、焼結されていない或いは最終焼結されていないセラミック材料であることを特徴とする歯科用CADCAM用被切削体。 (6) The dental CADCAM workpiece to be cut according to (1), wherein the dental CADCAM workpiece is an unsintered or final sintered ceramic material.

(7)上記(6)記載の歯科用CADCAM用被切削体が、アルミナまたはジルコニアの成分が95%以上含まれているセラミック材料であることを特徴とする歯科用CADCAM用被切削体。 (7) A dental CADCAM workpiece to be cut according to (6), wherein the dental CADCAM workpiece is a ceramic material containing 95% or more of an alumina or zirconia component.

(8)上記(6)記載の歯科用CADCAM用被切削体が、1次平均粒子径は0.01〜10μmのセラミック材料であることを特徴とする歯科用CADCAM用被切削体。 (8) A dental CADCAM workpiece, wherein the dental CADCAM workpiece according to (6) is a ceramic material having a primary average particle size of 0.01 to 10 μm.

(9)上記(1)記載の歯科用CADCAM用被切削体が、周方向の位置決めが可能な全周に亘っていない凹部で無い部分を有することを特徴とする歯科用CADCAM用被切削体。 (9) The dental CADCAM workpiece to be cut according to (1), wherein the dental CADCAM workpiece has a portion that is not a concave portion that does not extend over the entire circumference in which circumferential positioning is possible.

本発明の歯科用仮焼結体は、切削加工する前の歯科用仮焼結体であっても、また切削加工した後の歯科用修復物であっても、着色液や浸透液が浸透し易く、内部まで複雑な色彩を色分けし着色することができる。このことから天然歯に類似の色調再現が可能な歯科修復物を作製することができ、今までよりも審美的に優れた歯科用修復物を得ることができる。 Even if the dental temporary sintered body of the present invention is a dental temporary sintered body before cutting or a dental restoration after cutting, a colored liquid or a penetrating liquid penetrates. It is easy to color and color complex colors up to the inside. This makes it possible to produce a dental restoration that can reproduce a color tone similar to that of natural teeth, and to obtain a dental restoration that is aesthetically superior than before.

歯科用仮焼結体に酸化鉄着色液を浸透させる前の模式図Schematic diagram before penetrating iron oxide coloring liquid into dental temporary sintered body 酸化鉄着色液が歯科用仮焼結体に浸透した状態を示す模式図Schematic diagram showing the state in which the iron oxide coloring liquid has penetrated into the dental temporary sintered body 酸化鉄着色液が浸透した部分に、更に浸透液を浸透させる前の模式図Schematic diagram before further penetrating the penetrating liquid into the part where the iron oxide coloring liquid penetrated 浸透液が歯科用仮焼結体に浸透した状態を示す模式図Schematic diagram showing the state where the penetrant has penetrated into the dental temporary sintered body 本発明の第1の実施形態の歯科用CADCAM用被切削体の平面図The top view of the to-be-cut object for dental CADCAM of the 1st Embodiment of this invention 本発明の第1の実施形態の歯科用CADCAM用被切削体の側面図The side view of the to-be-cut object for dental CADCAM of the 1st Embodiment of this invention 本発明の歯科用CADCAM用被切削体に補助線等を加えた平面図The top view which added the auxiliary line etc. to the to-be-cut object for dental CADCAM of this invention 本発明の歯科用CADCAM用被切削体に補助線等を加えた側面図The side view which added the auxiliary line etc. to the to-be-cut object for dental CADCAM of this invention 従来の歯科用CADCAM用被切削体の平面図Plan view of conventional dental CADCAM workpiece 従来の歯科用CADCAM用被切削体の側面図Side view of a conventional dental CADCAM workpiece 本発明の第2の実施形態の歯科用CADCAM用被切削体の側面図Side view of the object to be cut for dental CADCAM according to the second embodiment of the present invention. 本発明の第3の実施形態の歯科用CADCAM用被切削体の側面図The side view of the to-be-cut object for dental CADCAM of the 3rd Embodiment of this invention. 本発明の第4の実施形態の歯科用CADCAM用被切削体の側面図The side view of the to-be-cut object for dental CADCAM of the 4th Embodiment of this invention

A 着色液が浸透していない歯科用仮焼結体
B 酸化鉄着色液が浸透した歯科用仮焼結体
C 浸透液が浸透した歯科用仮焼結体
1 歯科用CADCAM用被切削体
1a 天面
1b 底面
1c 円周部
2 凹部
2a 面
2b 面
3 凹部
3a 面
3b 面
4 凹部となっていない円弧部分
5 凹部
AX 軸方向
CG 重心(中心)
CX 中心軸



A Dental pre-sintered body that is not infiltrated with coloring liquid B Dental pre-sintered body that is infiltrated with iron oxide coloring liquid C Dental pre-sintered body that is infiltrated with permeating liquid 1 Dental CADCAM workpiece 1a Surface 1b Bottom surface 1c Circumferential portion 2 Recess 2a Surface 2b Surface 3 Recess 3a Surface 3b Surface 4 Arc portion 5 which is not a recess 5 Recess AX Axial direction CG Center of gravity (center)
CX center axis



Claims (4)

予備焼結後に切削加工が行なわれ、切削加工後に口腔内で使用できる状態まで焼結させる歯科用仮焼結体であって、
予備焼結された歯科用仮焼結体の密度を予備焼結密度とし、
口腔内で使用する密度まで焼結された歯科用焼結体の密度を完全焼結密度としたとき、
30 ≦ 相対密度(%)={(予備焼結密度)/(完全焼結密度)}×100 ≦ 45
の式を満たすことを特徴とする歯科用仮焼結体。
Cutting is performed after pre-sintering, a dental temporary sintered body that is sintered to a state that can be used in the oral cavity after cutting,
The density of the presintered dental temporary sintered body is the presintered density,
When the density of the dental sintered body sintered to the density used in the oral cavity is the complete sintered density,
30 ≤ Relative density (%) = {(pre-sintered density) / (fully sintered density)} x 100 ≤ 45
A dental temporary sintered body satisfying the following formula:
請求項1記載の歯科用仮焼結体を構成する無機粉末の平均粒子径が1.0-5000nmであることを特徴とする歯科用仮焼結体。 The dental temporary sintered body, wherein the average particle diameter of the inorganic powder constituting the dental temporary sintered body according to claim 1 is 1.0 to 5000 nm. 請求項1記載の歯科用仮焼結体を着色するための着色材を含む着色液及び浸透液材を含む浸透液とを含む歯科用仮焼結体用着色セットであって、
着色液が金属イオンを含むことを特徴とする歯科用仮焼結体用着色セット。
A coloring set for a dental temporary sintered body comprising a coloring liquid containing a coloring material for coloring the dental temporary sintered body according to claim 1 and an infiltrating liquid containing an infiltrating liquid material,
A coloring set for a dental temporary sintered body, wherein the coloring liquid contains metal ions.
請求項1記載の歯科用仮焼結体に、着色材を含む着色液及び浸透液材を含む浸透液とを接触させることで着色を行う着色方法。


2. A coloring method for coloring a dental temporary sintered body according to claim 1 by bringing a coloring liquid containing a coloring material into contact with a penetrating liquid containing a penetrating liquid material.


JP2017040007A 2016-07-29 2017-03-03 Easy coloring dental pre-sintered body Pending JP2018143393A (en)

Priority Applications (3)

Application Number Priority Date Filing Date Title
JP2017040007A JP2018143393A (en) 2017-03-03 2017-03-03 Easy coloring dental pre-sintered body
EP17183802.2A EP3275398B1 (en) 2016-07-29 2017-07-28 Mill blank for dental cad/cam with groove not extending over whole of circumference
US15/662,557 US10905531B2 (en) 2016-07-29 2017-07-28 Mill blank for dental CAD/CAM with groove not extending over whole of circumference

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2017040007A JP2018143393A (en) 2017-03-03 2017-03-03 Easy coloring dental pre-sintered body

Publications (1)

Publication Number Publication Date
JP2018143393A true JP2018143393A (en) 2018-09-20

Family

ID=63590291

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2017040007A Pending JP2018143393A (en) 2016-07-29 2017-03-03 Easy coloring dental pre-sintered body

Country Status (1)

Country Link
JP (1) JP2018143393A (en)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20180028293A1 (en) * 2016-07-29 2018-02-01 Shofu Inc. Dental temporary calcined body having colored inside
JPWO2020189745A1 (en) * 2019-03-20 2020-09-24
US11496255B2 (en) 2017-04-17 2022-11-08 Qualcomm Incorporated Multiplexing for sequence based acknowledgement design for new radio
WO2023053789A1 (en) * 2021-09-30 2023-04-06 株式会社ジーシー Method for coloring block for dentistry, and block for dentistry

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2002536280A (en) * 1999-02-04 2002-10-29 スリーエム エスペ アクチェンゲゼルシャフト Coloring ceramics with solutions containing ions or complexes
JP2006527156A (en) * 2003-06-13 2006-11-30 スリーエム イーエスピーイー アーゲー Evenly colored ceramic framework and ceramic coloring solution
US20130221554A1 (en) * 2012-02-23 2013-08-29 Yunoh Jung Non-Pre-Colored Multi-Layer Zirconia Dental Blank that has a Gradual Change in Translucency through a Thickness After Sintering
JP2015536904A (en) * 2012-09-20 2015-12-24 スリーエム イノベイティブ プロパティズ カンパニー Coloring of zirconia ceramics

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2002536280A (en) * 1999-02-04 2002-10-29 スリーエム エスペ アクチェンゲゼルシャフト Coloring ceramics with solutions containing ions or complexes
JP2006527156A (en) * 2003-06-13 2006-11-30 スリーエム イーエスピーイー アーゲー Evenly colored ceramic framework and ceramic coloring solution
US20130221554A1 (en) * 2012-02-23 2013-08-29 Yunoh Jung Non-Pre-Colored Multi-Layer Zirconia Dental Blank that has a Gradual Change in Translucency through a Thickness After Sintering
JP2015536904A (en) * 2012-09-20 2015-12-24 スリーエム イノベイティブ プロパティズ カンパニー Coloring of zirconia ceramics

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20180028293A1 (en) * 2016-07-29 2018-02-01 Shofu Inc. Dental temporary calcined body having colored inside
US11496255B2 (en) 2017-04-17 2022-11-08 Qualcomm Incorporated Multiplexing for sequence based acknowledgement design for new radio
JPWO2020189745A1 (en) * 2019-03-20 2020-09-24
WO2020189745A1 (en) * 2019-03-20 2020-09-24 クラレノリタケデンタル株式会社 Dental prosthesis coloring device, processing device, and coloring method
US20220168080A1 (en) * 2019-03-20 2022-06-02 Kuraray Noritake Dental Inc. Dental prosthesis coloring device, machining apparatus, and coloring method
JP7185016B2 (en) 2019-03-20 2022-12-06 クラレノリタケデンタル株式会社 Coloring device, processing device and coloring method for dental prosthesis
US11986365B2 (en) 2019-03-20 2024-05-21 Kuraray Noritake Dental Inc. Dental prosthesis coloring device, machining apparatus, and coloring method
WO2023053789A1 (en) * 2021-09-30 2023-04-06 株式会社ジーシー Method for coloring block for dentistry, and block for dentistry

Similar Documents

Publication Publication Date Title
CN109414309B (en) Method for producing a coloured blank and blank
JP2018143393A (en) Easy coloring dental pre-sintered body
US11529685B2 (en) System and method of making printed articles
US8080189B2 (en) Inorganic-inorganic composite material and method for producing the same
JP7217699B2 (en) Zirconia cutting object for dental cutting, method for producing the same, transparency improving liquid for zirconia cutting object for dental cutting, and method for using the same
US20160228223A1 (en) Creating a Translucent Effect Within One Half of a Green Body Zirconia Blank
US11787747B2 (en) Polychromatic zirconia bodies and methods of making the same
CN104844200A (en) Multiple-oxide-doped gradient-color zirconia dental prosthesis and preparation method thereof
KR102404856B1 (en) Dental zirconia blank having high relative density
CN105669189B (en) A kind of shading whiteware and preparation method thereof
CN104744035A (en) Preparation method of functionally graded zirconia ceramic material with dental glass part permeation
JP6093900B1 (en) Dental calcined body colored inside
JP5943537B2 (en) Method for producing colored ceramic sintered body especially for dentistry applications
JP2017148374A (en) Zirconia calcined body and zirconia sintered body
US20060214337A1 (en) Method of producing ceramic sintered bodies, ceramic sintered bodies and luminous vessels
WO2022044930A1 (en) Laminate molding fired body and method for manufacturing said laminate molding fired body
WO2023053789A1 (en) Method for coloring block for dentistry, and block for dentistry
US20230295048A1 (en) Metal oxide ceramic material, precursors, preparation and use thereof
EP3992169A1 (en) Coloured technical corundum ceramic and method for producing the same
JPWO2021023788A5 (en) Process for producing sintered compacts with color gradation for use in preparing dental restorations, ceramic compacts and use of ceramic compacts
JPWO2021023791A5 (en) Process for producing sintered compacts with color gradation for use in the preparation of dental restorations, sintered compacts and use of the compacts
KR102240379B1 (en) method for manufacturing dental prosthesis using zirconia block
CN114180960B (en) Shell, preparation method thereof and electronic equipment
US20240350239A1 (en) Process for Producing a Blank for Dental Restorations by Way of a Multi-Step Sedimentation Process
JPH03198841A (en) Manufacture of ceramic crown

Legal Events

Date Code Title Description
A621 Written request for application examination

Free format text: JAPANESE INTERMEDIATE CODE: A621

Effective date: 20200227

A977 Report on retrieval

Free format text: JAPANESE INTERMEDIATE CODE: A971007

Effective date: 20201111

A131 Notification of reasons for refusal

Free format text: JAPANESE INTERMEDIATE CODE: A131

Effective date: 20201228

A521 Request for written amendment filed

Free format text: JAPANESE INTERMEDIATE CODE: A523

Effective date: 20210112

A02 Decision of refusal

Free format text: JAPANESE INTERMEDIATE CODE: A02

Effective date: 20210707