3D printing technology has been around for many years. I believe everyone is familiar with it. When it comes to medical dentistry, everyone is familiar with it. However, when oral medical treatment encounters 3D printers, everyone may feel incredible or puzzled. Is it possible that 3D printers can also assist oral medical treatment? , Yes, 3D printing technology has been used in the oral field for many years, such as orthodontics, implant surgery, restoration, temporary crowns, dentures and so on. As an important part of the "Made in China 2025" intelligent manufacturing sector, 3D printing technology is considered to be an important opportunity to promote a new round of industrial revolution. Driven by "intelligent manufacturing", 3D printing has become a hot spot for capital. The oral medical industry has also caught up with this east wind.
PioNext has launched a series of light curing products for dental applications, which enhances the added value of its products for dentistry. This equipment can produce products of various geometries. The way of metal 3D printing is also the trend of the times in the production of medical products such as dental orthopaedic surgical instruments: combining lightweight structure, bionics, according to our process to realize the production of recessed and frame structures, topology-optimized component structure, no production damage. Structures such as biomimetic structures, porous and scaffold structures.
The so-called 3D printing, the academic name is rapid prototyping technology, also known as additive manufacturing technology, that is, to generate 3D entities by adding materials layer by layer. 3D printing technology integrates the cutting-edge technical knowledge of digital modeling technology, electromechanical control technology, information technology, material science and chemistry, etc. 3D printer is the core equipment of this technology. In addition, new printing materials, printing technology, design and control Software is also an important part of the 3D printing technology system.
In 1986, American scientist Charles Hull developed the first commercial 3D printing machine.
In November 2010, the American Jim Kor team created the world's first car Urbee printed by a 3D printer.
In August 2011, engineers at the University of Southampton developed the world's first 3D-printed aircraft.
In November 2012, Scottish scientists used human cells to print artificial liver tissue for the first time with a 3D printer.
In November 2013, Solid Concepts, a 3D printing company in Austin, Texas, designed and manufactured a 3D printed metal pistol.
In the aviation field, 3D laser printing has been used by the Aviation Industry Corporation of China (AVIC) to manufacture titanium alloy main structural parts in the fifth-generation fighter jets J-20 and J-31 to reduce the structural weight of the aircraft and increase its effective thrust-to-weight ratio.
Today, 3D printing technology has penetrated into all walks of life, speeding up the development cycle and time to market of products; and 3D printing technology allows consumers to participate in design and production, which makes the research and development products more targeted and reduces the risk of product development; The products produced by 3D printing technology are more integrated and complete, which increases the safety and aesthetics of the products