Add to ORKGIn this study, we tried to quantify the isolated and modulated effects of topological design and material type on the mechanical properties of AM porous biomaterials. Towards this aim, we assembled a large dataset comprising the mechanical properties of AM porous biomaterials with different topological designs (i.e. different unit cell types and relative densities) and material types. Porous structures were additively manufactured from Co-Cr using a selective laser melting (SLM) machine and tested under quasi-static compression. The normalized mechanical properties obtained from those structures were compared with mechanical properties available from our previous studies for porous structures made from Ti-6Al-4V and pure titanium as well as...
The combination of topology optimization (TOP) and selective laser melting (SLM) provides the possib...
Although the initial mechanical properties of additively manufactured porous biomaterials are intens...
Additively manufactured (AM) porous metallic biomaterials are considered promising candidates for bo...
In this study, we tried to quantify the isolated and modulated effects of topological design and mat...
It is known that the mechanical properties of bone-mimicking porous biomaterials are a function of t...
Additively manufacturing (AM) techniques make it possible to fabricate open-cell interconnected stru...
Recent developments in additive manufacturing techniques have motivated an increasing number of rese...
Meta-materials are structures when their small-scale properties are considered, but behave as materi...
Additive manufacturing (AM) techniques enable fabrication of bone-mimicking meta-biomaterials with u...
Additive manufacturing (AM) techniques enable fabrication of bone-mimicking meta-biomaterials with u...
Mechanical and architectural features play an important role in designing biomedical devices. The us...
Porous biomaterials that simultaneously mimic the topological, mechanical, and mass transport proper...
Porous metal structures have emerged as a promising solution in repairing and replacing damaged bone...
The combination of topology optimization (TOP) and selective laser melting (SLM) provides the possib...
Although the initial mechanical properties of additively manufactured porous biomaterials are intens...
Additively manufactured (AM) porous metallic biomaterials are considered promising candidates for bo...
In this study, we tried to quantify the isolated and modulated effects of topological design and mat...
It is known that the mechanical properties of bone-mimicking porous biomaterials are a function of t...
Additively manufacturing (AM) techniques make it possible to fabricate open-cell interconnected stru...
Recent developments in additive manufacturing techniques have motivated an increasing number of rese...
Meta-materials are structures when their small-scale properties are considered, but behave as materi...
Additive manufacturing (AM) techniques enable fabrication of bone-mimicking meta-biomaterials with u...
Additive manufacturing (AM) techniques enable fabrication of bone-mimicking meta-biomaterials with u...
Mechanical and architectural features play an important role in designing biomedical devices. The us...
Porous biomaterials that simultaneously mimic the topological, mechanical, and mass transport proper...
Porous metal structures have emerged as a promising solution in repairing and replacing damaged bone...
The combination of topology optimization (TOP) and selective laser melting (SLM) provides the possib...
Although the initial mechanical properties of additively manufactured porous biomaterials are intens...
Additively manufactured (AM) porous metallic biomaterials are considered promising candidates for bo...