Physically realizable three-dimensional bone prosthesis design with interpolated microstructures
AD Cramer, VJ Challis… - Journal of …, 2017 - asmedigitalcollection.asme.org
We present a new approach to designing three-dimensional, physically realizable porous
femoral implants with spatially varying microstructures and effective material properties. We …
femoral implants with spatially varying microstructures and effective material properties. We …
Physically Realizable Three-Dimensional Bone Prosthesis Design With Interpolated Microstructures
A Cramer, V Challis, A Roberts - Journal of Biomechanical …, 2017 - eprints.qut.edu.au
We present a new approach to designing three-dimensional, physically realizable porous
femoral implants with spatially varying microstructures and effective material properties. We …
femoral implants with spatially varying microstructures and effective material properties. We …
Physically Realizable Three-Dimensional Bone Prosthesis Design With Interpolated Microstructures.
AD Cramer, VJ Challis, AP Roberts - Journal of Biomechanical …, 2017 - europepmc.org
We present a new approach to designing three-dimensional, physically realizable porous
femoral implants with spatially varying microstructures and effective material properties. We …
femoral implants with spatially varying microstructures and effective material properties. We …
Physically Realizable Three-Dimensional Bone Prosthesis Design With Interpolated Microstructures
AD Cramer, VJ Challis… - Journal of …, 2017 - pubmed.ncbi.nlm.nih.gov
We present a new approach to designing three-dimensional, physically realizable porous
femoral implants with spatially varying microstructures and effective material properties. We …
femoral implants with spatially varying microstructures and effective material properties. We …
Physically Realizable Three-Dimensional Bone Prosthesis Design With Interpolated Microstructures
A Cramer, V Challis, A Roberts - Journal of Biomechanical …, 2017 - eprints.qut.edu.au
We present a new approach to designing three-dimensional, physically realizable porous
femoral implants with spatially varying microstructures and effective material properties. We …
femoral implants with spatially varying microstructures and effective material properties. We …