Mayo Clinic’s 3D Anatomic Modeling Laboratory is inventing how to use 3D printing for surgical planning and instruction. People undergoing new, uncommon or complex surgeries at Mayo Clinic may benefit from access to the clinic’s expertise in 3D anatomic models. The models the lab builds also helps with patient and medical education.
Global engineering company Renishaw teamed up with two inventive technology concerns to show how metal additive manufacturing (AM) can make lightweight spinal implants that mimic the mechanical properties of bone.
Patient care is sometimes just as much about engineered devices or implants as it is about specialized surgical care or drug therapy. The Mayo Clinic, the world-renowned specialty care facility, not only has doctors, nurses, and clinicians with the skills and willingness to handle tough cases.
New printer aims to provide designers affordable, office-friendly, full-color 3d printing to validate new product designs quickly.
The Injection Molding Machine Interface (IMMI) is made for plastics manufacturers to integrate Universal Robots with injection molding machines.
There’s more than one way to finish a hole. The most effective option will depend on the number of parts, cycle time and tolerances. One of the most effective options is boring.
Ultimaker offers a full suite of 3D printing solutions, from award-winning hardware to software to materials, that seamlessly integrate together and within existing workflows due to the open nature of the system.
One thing that’s certain in developing the most cost-effective solutions for part-off and grooving applications is that there is not just one way to approach the problem and meet basic process requirements for chip evacuation, tool life and surface finish.
Cincinnati Incorporated (CI) a build-to-order machine tool manufacturer based out of Harrison, Ohio, announced on March 2, 2020 a distribution partnership with BASF 3D Printing Solutions (BASF 3DPS).
Nickel is a widely used metal in the manufacturing industry for both industrial and advanced material processes. Now, Purdue University innovators have created a hybrid technique to fabricate a new form of nickel that may help the future production of lifesaving medical devices, high-tech devices and vehicles with strong corrosion-resistant protection.