According to Ken Jin, co-founder, and chief technology officer of Meditool, “Meditool is one of the pioneers in developing 3D printed PEEK medical implants. Evonik has been our trusted partner in materials supply. The venture investment will be an extra boost to our endeavor to bring innovative solutions to patients and surgeons in China and the rest of the world.”
Evonik’s venture capital arm has already invested in two funds in China and with Meditool, it now has its first direct investment. Co-investors in Meditool include ZN Ventures, Morningside Ventures, and Puhua Capital.
The 3D printing’s role in lifesaving development before and now.
Published on 10 Jun 2009 by Koen Van Roy. According to Dr. Gabor Forgacs,” made that prediction. Now, he is making it a reality. Gabor is a University of Missouri researcher doing groundbreaking work in regenerative medicine. He is also the Scientific Founder and Chief Scientific Officer of Organovo, the latest company to receive support from you, the donors of the Methuselah Foundation”.
According to the Euronews Knowledge,” it was published on 10 Jul 2013. Organ transplants have been a lifesaving development and one of the shining success stories of modern medicine. But the shortage of organs for transplantation is an ongoing problem. One answer is to grow them artificially in a laboratory – a promising although controversial solution.
The hope is to put human liver cells into that structure to see if they can grow and multiply into a fully functioning human liver.
Euronews knowledge brings you a fresh mix of the world’s most interesting know-hows, directly from Space and Sci-Tech experts”.
This is from the ‘Science Museum’s’ video, it was published on 8 Oct 2013. According to Materials scientist, Brian Derby,” thinks that it will be some time before working human organs can be 3D printed for transplant. But there are some surprising ways 3D printing can already heal you”.
Now— Artificial liver and transplantation by, SCOTT L. NYBERG.
According to some comments, and concerns, 1— Remon Michel 5 years ago we hope so much develop this solution.
2— Ayy Foo It’s Modelo Time 3 years ago Investing in this research.
3— zsdg15 6 years ago So in 2075 when I’m 80 I can replace most of my organs with a younger version of my organs to live to 110? 😀
4— group 6 years ago How do they regulate that the cells will divide? Like, do they only have cells in the bio-ink that are in S phase? How do they make the cells into mitosis?
5— Rebekkah Todd 6 years ago I strongly recommend that everyone invest in this company now while the stock is still low – also, SSYS, DDD, and ADSK – you are looking at the future….if you have any spare money to invest at all…
7— TheKingdomOfDragons 6 years ago OMG, that is SWEET 😀
8—Seeu anon 7 years ago We need to support this! I am unwell and need medical help.
9— Jordan Quenneville 7 years ago This blew my mind, but: This process would be fantastic if say, a healthy organ was suddenly damaged. But what if the organ failed for other reasons, like old age? What are the implications of using old cells? Would the new organ fail more quickly then? Also, if the organ failed because of a genetic disorder, wouldn’t the new one be just at risk of mutation and failure? In both these cases, what’s the longevity of these organs? What’s the longevity of an ideal printed organ?
10— djjmria 8 years ago I need a new right arm, do they also make those?
11— ProGameDev101 9 years ago Would Bio-engineering be the degree to get to help contribute to this type of technology?
12— booste30 9 years ago This guy’s going to win the Nobel Prize.
13— Strawbz7209 9 years ago This is one of the most amazing things I’ve ever seen.
14— Richard Monat 4 years ago Thank you for your time. I forgot to respond on time. 3-D printing is a footprint on the snow or sand, that real explorers will track. God, I’d love to see, even what’s the beginning. What a future from that TOOL. Richard.
I hope everybody from the comments section, find this post and read about the latest research:)
According to Huisman engineer Hugo Romer, who led the work on the project at Huisman’s test center in China R&D team research,” the 3D-printed material’s qualities, including strength and fatigue, and examined it for possible anisotropy (different material properties in different dimensional directions). Last year, Huisman successfully load tested the world’s first 3D printed offshore crane hook to 80 tonnes, and its work has now culminated in the first installed 3D-printed crane hook in the world. Last year the master thesis award went to Huisman R&D Engineer Hugo Romer, together with his graduation professor, Professor Kaminski, with Hugo’s thesis on “Wire & Arc additive manufacturing for offshore appliances”. With this new technology a heavy crane hook has been manufactured, and subsequently tested on its material qualities, among which strength and fatigue, and the possible anisotropy of the material”.
According to the 3 D Printing Materials Market, “The 3 D Printing Materials Market is segmented based on material type, form, and application. The 3 D Printing Materials Market is segmented based on material type as Plastics, Metals, Ceramics, Others. The 3 D Printing Materials Market is segmented based on form as Filament, Powder, Liquid. The 3 D Printing Materials Market is segmented based on the application as Aerospace & Defense, Medical & dental, Automotive, Consumer Goods, Others.
The 3 D Printing Materials Market geographic segmentation covers various regions such as North America, Europe, Asia Pacific, Latin America, Middle East, and Africa. Each geography market is further segmented to provide market revenue for select countries such as the U.S., Canada, U.K. Germany, China, Japan, India, Brazil, and GCC countries”.
According to New China TV,” 3D Printing is getting real in construction. China’s first 3D-printed pedestrian bridge will open to the public in a park next January. With a designed lifespan of 3 decades, the bridge took the engineers only 35 days to print out”.
Expected to cost just US$9,450, the two-seater LSEV will have a maximum speed of 70 kilometres per hour and a range of 150km 19 March 2018 | Daniel Ren | South China Morning Post “X Electrical Vehicle, from Italy, says it is edging closer to mass production in China of its low-speed 3D-printed cars, which […]
2014 when i started sv3dprinter.com, i had little knowledge about 3D printing.
Now 2017, we have many 3D and 4D,5D Printing companies. Day by day we are learning new things about 3D Printing.:)
This report studies the global Dental 3D Printing market, analyzes and researches the Dental 3D Printing development status and forecast in United States, EU, Japan, China, India and Southeast Asia. This report focuses on the top players in global market, like Concept Laser GmbH EnvisionTEC, Inc. 3D System, Inc. Stratasys Ltd. DWS Systems EnvisionTEC Inc. EOS GmbH […]
Intelligent materials in 4D printing.The fourth dimension in 4D printing refers to the ability of material objects to change form and function after they are produced, thereby intelligent materials are the important factor to make 4D printing products.
4D printing intelligent materials are self-healing material.
This technological trends can help deliver sustainable growth in future. 4D printing is large-scale deployment. Nowadays many intelligent materials and products are available commercially.
Several universities and research technologies continued worldwide academic research. However, there is a widely held view that existing intelligent materials could find far more widespread uses and the limited commercialized materials reflect in part the many misconceptions surrounding exactly what intelligent materials, where they can use.
One of the most influential ways of using intelligent materials is to adopt this new technology. 🙂
According to Yingchuang,” This is the company in China. They are building houses with 3D printers. They use the environmentally friendly material for 3D printing houses such as recycled construction waste and industrial waste. Also, they use a large 3D printer which is 20 feet tall, 33 feet wide, and 132 feet long. The house making process takes 24 hours. They make pieces one by one and assemble the house. This process is good for construction workers since they are not exposed to hazardous material. This process is also environmentally friendly”.:)
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