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Why Does a Dentist Prefer It?
In today's world, dental treatments such as crowns, bridges, and implants are applied for aesthetic purposes or to maintain dental health. These treatments involve attaching fixed prosthetics to teeth or implants inside the oral cavity, allowing individuals to use them like their own teeth.
However, depending on the manufacturing method and material type, these treatments can be applied to patients within an average of 1 week to 10 days. During this process, temporary teeth are created for patients until their actual teeth are ready. These temporary teeth can be made manually by dental laboratory technicians, or, in modern times, they can be precisely manufactured using 3D printers or CAD-CAM devices.
Temporary resin is a bio-compatible, odorless, and tasteless 3D printer resin that can be used as a temporary tooth in the patient's mouth. It provides natural tooth aesthetics with compatibility, brightness, and durability. It is easy to work with and clean. Temporary tooth production with 3D printers can be faster and more precise compared to other methods.
- Prevents sensitivity after the cutting process.
- Provides comfort for the individual in social environments.
- Helps prevent speech differences and difficulties caused by missing teeth.
- Preserves soft tissue.
- Necessary for the individual's quality of life.
- Shapes the gum. Facilitates permanent restoration.
- Protects cut teeth from the external environment.
- Prevents teeth from shifting and moving.
The dental impression taken conventionally or using an intraoral scanner is quickly processed through dental design software. With a suitable smile design created for the patient, it can be easily produced using a 3D printer.
Scanning and Design
Let's examine the Exocad design of the frequently used clinical application, All-on-4.
Firstly, the anatomical wax-up tab is selected on the homepage, and the implant type is chosen.
On the next project page, intermediary abutments and members for implant application are determined.
After selecting the job description, the design phase is initiated. In this phase, abutments are identified, and the correct morphological angle is determined.
The tooth surface is created after determining the positions of canal screws and their entry angles. In this stage, connector connections are adjusted.
In the next step, appropriate gingival tissue is created.
After simulating the gingival tissue, the angles of screw channels are rechecked, and the design of the model is finalized.
