Mechanical investigation of AZ91D magnesium alloy as a biomedical implant

Tahmasebifar, Aydin
Kayhan, Said Murat
Evis, Zafer
Koç, Muammer


Mechanical design and analysis of a novel fixation device for human bone fractures
Yenigün, Çağrı; Tönük, Ergin; Oğuz, Erbil; Department of Biomedical Engineering (2016)
Fixation of bone fractures over a desired time period is one of the most important requirement for their healing processes. Fracture fixation devices are designed to satisfy particular requirements for different types of bone fractures. Conventional and locking plates, intramedullary rods and screws of trauma surgery, and polyaxial screws, connectors and rods of spinal surgery are the examples of contemporary implants for varying bones and their fractures. The mentioned fixation system is inspired from spin...
Mechanical characterization and modelling of porous polymeric materials manufactured by selective laser sintering
Tekin, Cevdet Murat; Dağ, Serkan; Department of Mechanical Engineering (2009)
Rapid prototyping methods embrace a family of manufacturing methods that are developed to speed up the prototyping stage of product design. The sole needed input for production being the solid model of the part, mold/tool-free production characteristics and the geometric part complexity that can be achieved due to layer-by-layer production have extended the applicability/research areas of these methods beyond prototyping. Local pore formation in part that occurs as a result of the discrete manufacturing nat...
Mechanical evaluation of cemented backfill materials
Çakmakçı, Güray; Ünal, Erdal; Department of Mining Engineering (1997)
Mechanical characterization of filament wound composite tubes by internal pressure testing
Karpuz, Pınar; Ankara, Osman Alpay; Department of Metallurgical and Materials Engineering (2005)
The aim of this study is to determine the mechanical characteristics of the filament wound composite tubes working under internal pressure loads, generating data for further investigation with a view of estimating the remaining life cycle of the tubes during service. Data is generated experimentally by measuring the mechanical behavior like strains in hoop direction, maximum hoop stresses that are formed during internal pressure loading. Results have been used to identify and generate the necessary data to ...
Mechanical Performance of Resol Type Phenolic Resin/Layered Silicate Nanocomposites
Tasan, C. Cem; Kaynak, Cevdet (Wiley, 2009-03-01)
Clay addition has been shown to affect polymer resins positively in terms of several physical and chemical properties, including mechanical performance, high temperature endurance and durability. These increases are limited only to relatively low concentrations of reinforcement phase, but at these low concentrations polymer/layered silicate nanocomposites (P/LS NC) have shown to exhibit higher mechanical performance than fiber reinforced polymer composites. This is among the several reasons that make P/LS N...
Citation Formats
A. Tahmasebifar, S. M. Kayhan, Z. Evis, and M. Koç, “Mechanical investigation of AZ91D magnesium alloy as a biomedical implant,” 2015, Accessed: 00, 2021. [Online]. Available: