Português

Polish and Taiwan, China scientists are committed to new 3D printing dental implants

776
2024-04-17 16:18:53
Ver tradução

Researchers from Wroclaw University of Technology and Taipei University of Technology in China are developing dental implants made from 3D printed ceramic structures connected to metal cores. Due to the use of biodegradable magnesium, bone tissue will gradually grow into such implants.
 
"The result will be a composite implant that can replace human teeth. Its scaffold is made of aluminum oxide and manufactured using additive methods [3D printing], ensuring that it will be customized according to specific patient needs," the press release stated.

In the upper part (crown), the ceramic structure is solid, and in the lower part (root), the ceramic structure is porous. Therefore, it can be filled with liquid metal - magnesium alloy. This will reduce the fragility of the structure, and the core itself will initially act as an anchor, fixing the implant in the jawbone. Magnesium will gradually degrade, releasing space for bone tissue growth (this process is called bone integration). As a result, the implant will become very stable - embedded in human tissue.

Scientists from Taiwan, China, China, in cooperation with researchers from Wroclaw, have developed appropriate ceramic preforms with openings, that is, they combine with metal cores to form implant structures. These structures were sent to the Department of Light Component Engineering, Casting, and Automation at the School of Mechanical Engineering, Wroclaw University of Technology, where researchers injected metal (a biocompatible magnesium alloy) into them.

The project is still in its early stages
"We are in the early stages of the project, so we are currently testing two casting techniques, and then we will choose the most favorable one. The first is the pressure infiltration method, or more accurately, from liquid pressing, placing the ceramic shape in a pressing chamber and pouring liquid metal, then lowering the piston to press the liquid metal into the pores of the ceramic. Preformed parts," Dr. Anna Dmitruk explained in a press release.

"The second technology is precision casting, which is also used in jewelry production. Here, we first make gypsum molds for wax or plastic models that were previously prepared," she added.

The work of the CERMET program will last for three years. The result will be an implant prototype. After development is completed, scientists can seek funding for subsequent stages of work, including medical pre research.

The project leader is Professor Krzysztof Naplocha from the School of Mechanical Engineering at Wroclaw University of Technology, with team members including Dr. Anna Dmitruk, Dr. Adrianna Filipiak Kaczmarek, and Dr. Natalia Ra ź Ny.

Source: Laser Net

Recomendações relacionadas
  • Laser gyroscopes measure small changes in daytime length on Earth

    Recently, scientists used laser gyroscopes to measure that the change in Earth's rotational speed is less than one millionth. This technology can help scientists understand the complex flow of water and air, which can cause the smallest adjustments to the Earth's rotation.The Earth's rotation is not completely stable. Planets accelerate or slow down as they rotate, slightly shortening or prolongin...

    2023-09-19
    Ver tradução
  • Shanghai Microsystems Institute has developed a high-speed photon detector with distinguishable photon numbers

    Recently, Li Hao and You Lixing's team from the Chinese Academy of Sciences Shanghai Institute of Microsystems and Information Technology developed an ultrahigh speed, photon number resolvable optical quantum detector with a maximum count rate of 5GHz and a photon number resolution of 61 by using the sandwich structure superconducting nanowires and multi wires working in parallel. The related rese...

    2024-07-12
    Ver tradução
  • Nanjing University of Science and Technology has made new progress in the field of programmable lensless holographic cameras

    Recently, Professor Chen Qian and Professor Zuo Chao's research group from the School of Electronic Engineering and Optoelectronic Technology at Nanjing University of Science and Technology proposed a minimalist optical imaging method based on programmable masks - programmable Fresnel zone aperture lensless imaging technology. The related achievement, titled "Lensless Imaging with a Programmable F...

    04-14
    Ver tradução
  • Researchers treated MXene electrodes with lasers to improve lithium-ion battery performance

    Researchers at King Abdullah University of Science and Technology (KAUST) in Saudi Arabia have found that laser scribing or creating nanodots on battery electrodes can improve their storage capacity and stability. The method can be applied to an alternative electrode material called MXene.Lithium-ion batteries have multiple drawbacks in a wide range of applications, and researchers around ...

    2023-08-04
    Ver tradução
  • 10.30 Shenzhen Munich South China Laser Exhibition awaits you

    The Munich South China Laser Exhibition is about to open!As a member exhibition of the South China International Intelligent Manufacturing, Advanced Electronics, and Laser Technology Expo (referred to as "LEAP Expo"), it will be held from October 30 to November 1, 2023 at the Shenzhen International Convention and Exhibition Center (Bao'an New Hall) in conjunction with the Munich South China Elect...

    2023-10-26
    Ver tradução