Additive manufacturing offers many opportunities for prostheses design and production. For example, 3D printing the lattice structures directly onto the device has enabled the designer to manipulate critical parameters such as stiffness, impact absorption, and breathability.
In this nTop Live, Yuki Okada, Technical Marketing Engineer at nTopology, shows you how to create patient-specific lower limb prosthesis sockets and apply the latest developments in prosthesis design. He shows you how to develop streamlined reusable workflows for mass customization of compression release stabilized sockets.
The topic of this nTop Live was inspired by the work of Jade Myers, a Research Development Specialist at RIT.
Watch and learn how to:
- Design lattice structures with variable stiffness.
- Drive important parameters from patient-specific data using field-driven design
- Streamline your design workflows to enable mass customization
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nTopology was founded in 2015 to enable engineers and designers to create any geometry — no matter how complex — and to meet the requirements of high-performance products.
Our software is used from research through production to create breakthrough processes and products for the aerospace, automotive, medical, and consumer industries.
Customers depend on nTopology’s generative design capabilities to take full advantage of new hardware, optimize parts where performance is critical, overcome design bottlenecks, and augment their traditional CAD, simulation, and engineering software stack.
