susan7323@hotmail.com
086-057587151222
No data
Home
About
Company Profile
Qualification certificate
Factory environment
Inspection equipment
Video
Products
Marine generator
Printing machinery parts
Ship water pump
Elevator motor
Fine chemicals
Air compressor
Municipal
3D Printing
3D Printing Products
News
Contact
LANGUAGE
中文站
English
日本語
Industry news
Company News
Sep 22,2023
Comprehensive ceramic cell suspension bioprinting to print "bones" with living cells
According to the latest news on the website of the "Daily Science" in the United States, scientists at the University of New South Wales in Australia have developed a ceramic-based "ink" that allows surgeons to 3D print bones with living cells (used to repair damaged bone tissue).
The researchers created a 3D printed bioresorbable respiratory scaffold
Researchers at ETH Zurich have created a new 3D printed airway scaffold that is biologically resorbable. They believe that this new stent could simplify the treatment of upper airway obstruction in the future,
Swedish scientists develop 3D printed bioceramic implants that can induce skull regeneration
Bioceramic implants stimulate the regeneration of natural skull, so even large skull defects can be repaired in ways that were not possible before. A research team consisting of the University of Gothenburg, Karolinska Institutet and Uppsala University has developed an implant called BioCer
Researchers have developed a rapid 3D printing technique that can be used to make organs
One of the main goals of printing and medicine is to be able to 3D print human organs for transplantation. Because of the small number of available organs, almost all patients worldwide who need organ transplants are waiting on transplant lists.
American researchers have created a faster and more precise 3D printing process
Researchers at the Rutgers School of Engineering have created a method for 3D printing large, complex parts at a fraction of the cost of current methods. The new method, called multiple fused filament fabrication (MF3), uses a single gantry, a sliding structure on a 3D printer, to print single or multiple parts simultaneously.
The first 3D printed nanostructured high-entropy alloy was introduced
Scientists from the University of Massachusetts Amherst and Georgia Tech published a paper in the latest issue of the journal Nature online that they used 3D printing methods to produce a duplex nanostructured high-entropy alloy (HEA),