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3D printing changes the future of life

3D printing, also known as additive manufacturing, mainly refers to the technology of rapidly constructing objects by layer-by-layer printing using adhesive-bondable materials based on digital model files. 3D printing technology is one of the most advanced and cutting-edge manufacturing methods available. Perhaps in most people's minds, 3D printing is more of a conceptual technology that exists in scientific research. It feels that 3D printers are cumbersome, expensive, and have limited printing. But in fact, with the rapid development of 3D printing technology in recent years, 3D printing products have rapidly shifted from laboratory to practical applications, and have already emerged in the fields of aerospace, biomedical, automotive, machinery, etc., with 3D printing application technology. With its ever-changing, its diversified products will surely bring about earth-shaking changes in people's daily lives in the near future.


Israel is a world-renowned country of technological innovation and a global leader in the development and application of 3D printing technology. Recently, the reporter visited several Israeli 3D printing innovation application companies, further understanding the magical charm of 3D printing and the significance of promoting social development.


Promote the medical revolution


In recent years, with the rapid development of 3D printing applications, 3D printing simulation experimental medical program development, personalized 3D printing capsules, 3D printing human implants and other innovative technological achievements have added vitality to the development of the world medical level. Eyar Miller, head of the Israeli health care company SBU, said that according to statistics from the statistics department, the global 3D printed biomedical market in 2016 has reached 710 million US dollars, and the forecast for 2025 will reach 3.51 billion US dollars. Products are creating one miracle after another in the medical world.


Miller highlighted the importance of 3D printing to restore human organ models for the development of more precise, comprehensive and effective personalized treatment programs and medical practice training for patients. Miller pointed out that using 3D printing organ model technology has four major advantages. First, the design of the treatment plan for the patient to the end of the treatment process is based on the human organ model test, which greatly enhances the accuracy of the treatment plan. Second, it can be repeated before surgery to perform a comprehensive rehearsal to help surgery. The surgeon selects the optimal surgical position and angle. The third is that the 3D printed materials are healthy and environmentally friendly. They can be tested in any environment without considering the biological hazard prevention problem. Fourth, as long as the data model is stored, the corresponding data can be quickly printed out at any time. Organ model. Taking brain surgery in patients with brain tumors as an example, because the brain is very sensitive and dangerous, it takes a doctor to find the most suitable orientation and angle in a short time when removing the brain tumor, which brings great difficulty to the operation. challenge. The application of 3D printing technology perfectly solves this problem. 3D printing technology can restore the biological model of the patient's brain in a very short time by means of the patient's brain data. Doctors can repeat the simulation surgery through these models and constantly improve. Surgery and treatment options. At the same time, these human organ models are also very important for the practical training of new doctors, allowing young doctors to accumulate a wealth of practical experience before actually entering the operating room.


The 3D Printing Research Center of the Hebrew University of Israel has also developed a practical 3D printing capsule for medicine. The technology quickly tailors individualized medications to the patient's needs, enabling them to accurately release the drug at the target location. The technology has been able to quickly print complex drugs as needed. These drugs can be star-shaped, diamond-shaped, round, etc. in shape, can expand, change shape, and activate and release drugs at predetermined times. For example, the technology can preset the time to allow the pill to reach the intestinal tract and then activate and release, so that the interference of gastric acid on the drug can be effectively avoided, and the optimal therapeutic effect can be achieved.


Leading food and beverage fashion


With the maturity of 3D printing application technology, 3D printed food has gradually been transferred from theoretical research to market applications. In recent years, many 3D printing startups in Israel have made breakthroughs in 3D printing meat. In the early years of the catering industry, there were many vegetarian meats. These simulated meat ingredients were still vegetarian products such as soy products. They mainly relied on chef cooking techniques to simulate the meat taste and could not be compared with real meat. 3D printed meat products are completely different. 3D printed meat products use a complex digital model to create simulated meat that is highly consistent with real meat products, from the most basic units, from mouthfeel to appearance to nutrition.


+86 13421471917  Billy Lau
 billy@flyinn-tech.com /  james@flyinn-tech.com

FlyInn Tech ZhongShan Co.,Ltd. Unit 1857, 18 floor, LiHe  commercial centre, ZhongShan city, GuangDong, China.


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