Explore Biofuse implants, a revolutionary 3D printed lattice technology from Croom Medical for orthopedic devices ...

A new type of 3D-printed lattice structure has surprised researchers with its strength and light weight. It uses two different lattice structures merged together to eliminate the weak points normally ...

Bamidele Ali is an accomplished engineer and seasoned business leader charged with developing a multi-million dollar 3D printing strategy for the Global materials company, DSM. After being ranked in ...

Additively manufactured (AM) three-dimensional lattice structures from titanium alloy Ti-6Al-4V may be applied in medical devices like bone implants for better osseointegration. Sintered from metal ...

Adient has been granted a patent for a body-supporting component featuring a main body with a 3D lattice structure. This design incorporates deflection properties and is made from a flexible material, ...

B radley Rothenberg, cofounder and CEO of nTopology, is building next generation design software that relies on mathematical computations to create 3D-printed parts and products that are lighter and ...

JUPITER, Fla., Sept. 5, 2018 /PRNewswire-PRWeb/ -- Captiva Spine is a medical device organization located in Jupiter, Florida, dedicated to delivering smart, elegant and intuitive spinal fusion ...

A team of UK scientists has shown how atomic-scale strengthening mechanisms observed in metals and alloys can be exploited to make 3D printed structures more robust. Mimicking the microcrystalline ...

A 3D printed ‘metamaterial’ boasting levels of strength for weight not normally seen in nature or manufacturing could change how we make everything from medical implants to aircraft or rocket parts.

A cheetah’s powerful sprint, a snake’s lithe slither, or a human’s deft grasp: each is made possible by the seamless interplay between soft and rigid tissues. Muscles, tendons, ligaments, and bones ...