Novel Process for Designing Topology Optimized Femoral Stems Printable by Metal Additive Manufacturing
Date
2019-06Metadata
Show full item recordAbstract
Total hip arthroplasty faces an issue of the high cost and risks of revision
surgeries. Studies show that more than 50% of the revision surgeries are the
consequence of the aseptic loosening of the implant. The cause of the loosening is the
bone resorption during the bone remodeling due to poor load transfer to the bone
because of the stiff metal used for the implant. The aim of this work is illustrating a
novel process of designing topology optimized femoral stems printable by additive
manufacturing to increase the load transfer. The proposed manual penalization process
is used to produce the required stems followed by a multiple simulations process to
select the optimum stem extraction iso-surface threshold value. The results show
printable stems that increased the strain energy in the bone by 20% and had better
micromotions uniform distribution resulting in more uniform bone growth.
DOI/handle
http://hdl.handle.net/10576/12371Collections
- Mechanical Engineering [64 items ]