“Using 3D printers from the pre-development stage to the mechanical structure review reduced overlapping work between teams and shortened the development process by two months. Moreover, by immediately applying the modified design, it dramatically decreased the mold cost.”
"The 3D printed duct led to a significant cost reduction compared to machining the part out of aluminum, as well as a 63 percent reduction in overall weight.”
"According to Sapir, the J3 DentaJet is perfect for labs that are looking to increase throughput and capacity. I was really impressed with the speed, quality, and peace of mind I have with this machine, The J3 DentaJet is a different creature.”
“We switched from the competitor system to Stratasys because the Stratasys system is much more efficient.”
"We find surgeons who train on these models are much better prepared in terms of dealing with complex surgeries.”
“The Stratasys J750 can economically produce training mannequins in a wide range of normal and abnormal anatomies, replicating realistic colors and tissue textures, making it possible for surgeons to effectively train on abnormal and patient-specific anatomy.”
“Our 3D printer is the most reliable piece of technology in our arsenal and the benefits are felt in every element of our service offering, from accelerating prototyping processes, to the creation of customized, end-use parts.”
“3D printing allows students to iterate quickly, and learn the skills needed to prototype their designs.”
“When you give undergraduate students professional tools, they achieve professional results. We want them to be great professional engineers, and the sooner we give them professional tools, the sooner they achieve that goal.”
“We’ve seen the number of project delays drastically reduced thanks to our eight-hour print time. Even with redesign, we can get files, prototypes and review them all within a 10-hour span. Design validation literally takes half the time with our 3D printer.”
“We planned the purchase of the 3D printer to achieve return on investment in only one year, which in fact happened.”
“We want the next generation of engineers to be prepared, to have knowledge of additive manufacturing and to be able to confront the problems of the modern global workforce head on.”
“We take angiographic images and use 3D modeling to recreate the complex anatomy of different coronary vessels, 3D print a realistic model and stress test different situations to see where we can improve our device.”
“The printers have helped us broaden the scope of projects coming through our center and provided much-added value for students as they develop their prototypes.”
“3D printing prototypes gives us the ability to fail fast. We can produce multiple design iterations quickly and we can change a product design overnight to meet a customer’s deadline. The parts are accurate and the process is dependable.”