A new type of 3D printed airway stent could make treating upper airway obstructions quicker and safer.
Previously only available in the U.S., Olympus is launching NoviSight 3D analysis software globally. For life science research that relies on cell analysis, the information provided by NoviSight software can improve the entire experiment process.
The speed of light has come to 3D printing. Northwestern University engineers have developed a new method that uses light to improve 3D printing speed and precision while also, in combination with a high-precision robot arm, providing the freedom to move, rotate or dilate each layer as the structure is being built.
LMI Technologies (LMI), a leading developer of 3D scanning and inspection solutions, is pleased to announce the official launch of Gocator® 6.1 software. This release includes the groundbreaking addition of high accuracy 6DoF alignment and 3D mesh data generation for advanced shape measurement on 360º surface scans (using multi-sensor systems); a new 2D contour-based part and feature locator with Surface Pattern Matching; a GoHMI SDK toolkit for developing Gocator®-to-factory operator interfaces; and a number of other smart 3D technology capabilities that drive improved automated quality inspection in the context of IIoT and industry 4.0.
LANXESS supports its customers in adding color to their 3D-printed concrete products. The specialty chemicals company has created a sample box showing which colors can be realized in additive manufacturing.
A novel technique could lead to 3D printed bones that provide a more natural and less intrusive alternative to bone grafts.
Scientists from UNSW Sydney have developed a ceramic-based ink that may allow surgeons in the future to 3D-print bone parts complete with living cells that could be used to repair damaged bone tissue.
A research team from the Skoltech Center for Design, Manufacturing, and Materials (CDMM) has prepared an extensive review on the use of Additive Manufacturing (AM) technologies (also known as 3-D-printing) in crewed lunar exploration.
New research shows that patterns inspired by lobster shells can make 3D printed concrete stronger, to support more complex and creative architectural structures.
New research shows that patterns inspired by lobster shells can make 3D-printed concrete stronger, to support more complex and creative architectural structures.
Image Credit: George P Gross/Shutterstock.c...
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