JPS5920163A - Dental implant material - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention is characterized in that the wall thickness of the leg part to be implanted in the alveolar bone is 2 tu.
This invention relates to dental implant materials of s and below.

Figure 1 shows the Bozu dental implant material, which is commonly used as a blade-type implant material, but the conventional one has the disadvantage of being easily unstable even after being implanted in the alveolar bone. There is.

The reason for this is that the conventional blade-type implant material is forged from titanium H metal as a material, and collagen fibers generated between the implant material and the alveolar bone and the leg portion of the implant material. This is thought to be because the bond with (1) does not become stronger over time and is always in a weak state.

In order to compensate for this drawback, it is conceivable to form the leg portion (1) in a porous state in order to strengthen the bond between the collagen fibers and the leg portion (1). Therefore, the present inventor first attempted to create the blade-type implant material by sintering ceramics into a predetermined shape. However, in order to implant this implant material into a slit made in the alveolar bone, a certain level of strength and toughness is required, and in the case of ceramic, the wall thickness (a) of the leg part (1) is 2-2. It has been found that the strength is insufficient unless the number is 5 or more. For this reason, it is necessary to increase the width of the slit formed in the alveolar bone, which has the disadvantage that the implant material implantation surgery becomes complicated.

The present invention was completed through the above trial and error,
This dental implant material has a leg portion (1) that is implanted in the alveolar bone and has a wall thickness of 2 mm or less, and is characterized by being formed by sintering cermet into a predetermined shape.

As for cermet, if you keep it, you can use 50% alumina and 50% titanium.
It is preferable to use a material containing 0% as a component, but in addition to this, materials containing 50% alumina, titanium 3099', 20% aluminum, zirconia 50tt), and 50% titanium may also be used. Furthermore, it is also possible to use a carbide cermet.

Further, the present invention can be formed in the same manner as the conventional blade-type implant material as shown in FIG. 1, and can also be formed into a pond shape as shown in FIG. 2 as an example. Of course, even in the case shown in FIG. 2, the wall thickness (a) of the leg portion (1) must be formed to have two dimensions. Furthermore, it is optimal to set the wall thickness (a) to around 1fI1.

Since the implant material of the present invention is made by sintering cermet, it is easy to form it into a porous state. However, in order to make the pores even thicker, powdered carbon is mixed into the cermet and sintered. It is advisable to burn off this carbon during solidification. In addition, blasting is applied to the implant material after sintering and forming.
A large number of fine four parts may be formed on the surface.

Furthermore, when the implant material is sintered, a temperature difference is created between the center and the outer circumference, so that the center has a denser density and the outer circumference can be made porous. Alternatively, a metal core material such as titanium may be disposed in the center of the implant material, and the outer peripheral portion may have a sintered structure made of cermet.

Furthermore, in order to further strengthen the bond between the leg portion (11) of the implant material of the present invention and collagen fibers, mucopolysaccharide, alginic acid, Implants containing calcium, etc., are used as 1) Implants 4. It is best to apply it on the surface of j.

fI! i], ↓ in Figures 1 and 2, (2) is the head part, and (3) is a part of the shoulder.

Since the present invention has the above configuration, it has the following functions and effects.

■ Because the surface of the implant material can have a porous structure, the bond between the collagen fibers generated between the implant material and the alveolar bone and the legs of the implant material can be improved over time after implantation. It will be strengthened accordingly. Therefore, the support of the implant material becomes strong and stable.

(2) Even if the leg portion is made to have a wall thickness of 2 mm or less, the metal component in the cermet provides strength and toughness, so it can sufficiently withstand the impact during driving.

[Brief explanation of the drawing]

FIGS. 1 and 2 are perspective views illustrating the shape of the dental implant of the present invention. (1) --- Leg Department (ai--Leg Department Attorney Masaru Tsuchiishhara)

Claims (1)

[Claims] (1) A dental implant material whose leg portion has a wall thickness of 2 μ or less to be implanted in the alveolar bone, and is characterized by being made by sintering cermet into a predetermined shape.