Posted October 08, 2018 06:33:54 A new type of synthetic nanomaterial has emerged from China and the world, promising to make us super-human.The invention has been made by a company called Nanostructure Technology, and is designed to enhance the body's ability to repair damaged tissue and to restore normal functions.It could have huge implications for the future of medicine, the researchers say.Th...
photocataker mozzies magnet,c1n1 photocatcher review,cop A new photocatalytic process for 3-D printing that can produce an entirely new set of 3D objects could help us understand the world around us.
C3n3, as the new process is called, has been developed by researchers from the University of Melbourne and the University at Albany in New York.
It has been shown to produce objects with a very high degree of precision, with the ability to be printed from virtually any object in the world, and with a range of industrial applications.
The scientists behind the process say it could be used to make a range from furniture to jewellery, as well as furniture parts.
“This is an incredibly exciting time for 3D printing, and there are many exciting possibilities to come up with,” lead researcher Simon Hockley said.
I want to create a tool for the next wave of 3-d printing “The most exciting applications for 3d printing right now are not just for 3 dimensional objects, but for a wide range of applications, including the production of bio-compatible medical implants, 3D printed furniture and much more.”
Cronin says 3-dimensional objects are already being used in robotics and aerospace industries.
He says C3nti3 is a tool to develop the next generation of 3d printers, which are increasingly capable of producing 3D designs of objects that are made from existing material, such as metal.
But while C3NTi3 has already shown promise in creating 3D furniture, Hockleys team has now developed a new process to produce 3D models of a range, including jewellery.
Using a new 3D scanner that mimics the movements of the human eye, the team could scan objects at various heights and angles, and then print them in various patterns and shapes.
They then cut the finished objects from the 3D model using a laser cutter.
Once the printed object is cut, the scientists then scan the 3-dimensions of the object to check that they are correct.
One of the most interesting applications for the new 3d scanner would be 3D-printed cars, which Hockys team hopes could be built in the near future.
In the past, the most effective way to print a car was by using a combination of a mould and laser.
With the C3N3 scanner, the 3d model could then be scanned, and the printed model could be tested by a 3D printer.
Hockley says the 3ds printer could then print the 3 dimensional object from scratch, with no need for moulds or laser-cutters.
As 3D technology has matured, so has the range of uses for 3ds printers.
For example, 3d-printed guns are already used in the military, and could be applied to military weapons that could be printed with a 3d printer.
But the team is also exploring applications for other 3d materials.
Currently, the technology can only produce a high quality plastic.
And there are also concerns that the technology may not be as accurate as a standard 3d printed object.
So far, the researchers have not produced any 3d models of real people.
That means there are currently no plans to test 3d objects on people.