The medical industry is booming. Aging populations, rising rates of health care utilization and advancements in manufacturing technology are driving the industry forward—and toward a future that includes additive manufacturing (AM) as a major part of the part-production environment.
The field of health care is often considered to be one of the most dynamic. The speed at which innovation is occurring—from the way surgeries are performed, to the development of new therapies—is moving evermore rapidly.
Imre Patterson has a smile that lights up any room he walks into. Imre was born with a femoral discrepancy, causing one leg to be shorter than the other.
Additive manufacturing has become increasingly sophisticated in recent years, capable of producing orthopedic implants with complex lattice structures that further enables osseointegration.
Resolution Medical, headquartered in Minneapolis, manufactures parts on contract for medical device OEMs.
The service bureaus that grew in lockstep with 3D printing’s early rise in popularity have largely evolved into one-stop shops for a variety of machined, fabricated, plastic-injection molded, and of course 3D-printed parts.
Extreme complexity is inherent to jet engines of all sizes, from those on a Boeing 777x to ones that power the smallest drone.
The distributorship with NCS Technologies is aimed to grow their sales channel for TruPrint additive manufacturing systems throughout the U. S.
The 3MF Consortium, the organization dedicated to advancing a universal specification for 3D printing, today announced it is becoming a Linux Foundation member.
Most machine shop owners and operators know about metal additive manufacturing (AM). They know it can make shapes they can’t match by machining alone. They also know that 3D printed “builds” require other machines and in-house expertise for post-processing.