Yayın: Design and analysis of wedge type porous structured implants fabricated from additive manufacturing (am) technique for optimum stress shielding effect
Dosyalar
Tarih
Kurum Yazarları
Karabuk University
KBUBAP-22-DS-120
Yazarlar
Özmen, Ramazan
Günay, Mustafa
Danışman
Dil
Türü
Yayıncı:
Taylor & francis ltd
Dergi Başlığı
Dergi ISSN
Cilt Başlığı
Özet
Recent advances in additive manufacturing have shown that porous cellular architectures can help reduce stress shielding in implants. This study used finite element analysis (FEA) to design wedge-shaped implants with lower elastic modulus, incorporating triply periodic minimal surface structures-specifically Gyroid and Schwarz-P types. Designs considered selective laser melting constraints, and produced using Ti6Al4V with five porosity levels (55-75%). Compression simulations revealed that increasing porosity decreased both Young's modulus and yield strength. The 75% porous Gyroid structure had the lowest Young's modulus (12.81 GPa), closest to that of natural bone. These results suggest FEA can effectively guide the design of bone-mimicking implants.
Açıklama
Kaynak:
Anahtar Kelimeler:
Konusu
Mınımal surface-structures
, Laser meltıng process
, Mechanıcal-propertıes
, Lattıce structure
, Bıomedıcal scaffolds
, Bone ıngrowth
, In-vıtro
, Tıtanıum
, Tı6al4v
, Strength, Additive manufacturing, Mechanical properties, Optimization, FEA, Ti6Al4V, Science & Technology, Technology, Computer Science, Interdisciplinary Applications, Engineering, Biomedical, Computer Science, Engineering