Karel Lietaert scite author profile

Bone-substituting biomaterials aim to mimic bone properties. Although mimicking some of bone properties is feasible, biomaterials that could simultaneously mimic all or most of the relevant bone properties are rare. We used rational design and additive manufacturing to develop porous metallic biomaterials that exhibit an interesting combination of topological, mechanical, and mass transport properties. The topology of the developed biomaterials resembles that of trabecular bone including a mean curvature close to zero. Moreover, the developed biomaterials show an unusual combination of low elastic modulus to avoid stress shielding and high strength to provide mechanical support. The fatigue resistance of the developed biomaterials is also exceptionally high, while their permeability is in the range of values reported for bone.

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Additively manufactured biodegradable porous iron

Jahr

et al. 2018

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Rationally designed meta-implants: a combination of auxetic and conventional meta-biomaterials

et al. 2018

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Karel Lietaert

Additively manufactured metallic porous biomaterials based on minimal surfaces: A unique combination of topological, mechanical, and mass transport properties

Additively manufactured biodegradable porous iron

Rationally designed meta-implants: a combination of auxetic and conventional meta-biomaterials

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