Add to ORKG© 2016, Springer Science+Business Media New York.Results of a computer simulation of the elastic properties of α+β- and β-titanium alloys, used for medical purposes, within the framework of the molecular-dynamics method are presented. It is shown that β-titanium alloys are best suited for the use as bone implants because of their small moduli of elasticity. The advisability of the use of the molecular-dynamics method for the study of the elastic properties of titanium alloys, serving as bone implants, is demonstrated
The demand of biomaterials has been continuously increasing due to ever-increasing aged population i...
Background: Nowadays, shape memory alloys (SMAs) and in particular Ni-Ti alloys are commonly used in...
The focus of this research is to determine a mathematical model for the osseointegration process of ...
© 2016, Springer Science+Business Media New York.Results of a computer simulation of the elastic pro...
Biometallic materials are the most important materials for use in biomedical applications especially...
Nanostructuring of titanium-based implantable devices can provide them with superior mechanical prop...
Titanium alloys have been present for decades as the main components for the production of various o...
Molecular dynamics simulations are done on materials as part of computational materials science in ...
Bone is the connective tissue in the human body which consists of cells, fibers, and extracellular m...
Production of Ti-based alloys with non-toxic elements give the possibility to control the market of ...
In the field of engineering practices, metal alloys are commonly used as structural materials for it...
Published Conference ProceedingsThe type of material used in biomedical applications depends on spec...
Ti-based alloys are finding ever-increasing applications in biomaterials due to their excellent mech...
The elastic modulus is a key factor influencing the applications of implant materials because of the...
Title: Optimization of properties of Ti based alloys for biomedical and structural applications Auth...
The demand of biomaterials has been continuously increasing due to ever-increasing aged population i...
Background: Nowadays, shape memory alloys (SMAs) and in particular Ni-Ti alloys are commonly used in...
The focus of this research is to determine a mathematical model for the osseointegration process of ...
© 2016, Springer Science+Business Media New York.Results of a computer simulation of the elastic pro...
Biometallic materials are the most important materials for use in biomedical applications especially...
Nanostructuring of titanium-based implantable devices can provide them with superior mechanical prop...
Titanium alloys have been present for decades as the main components for the production of various o...
Molecular dynamics simulations are done on materials as part of computational materials science in ...
Bone is the connective tissue in the human body which consists of cells, fibers, and extracellular m...
Production of Ti-based alloys with non-toxic elements give the possibility to control the market of ...
In the field of engineering practices, metal alloys are commonly used as structural materials for it...
Published Conference ProceedingsThe type of material used in biomedical applications depends on spec...
Ti-based alloys are finding ever-increasing applications in biomaterials due to their excellent mech...
The elastic modulus is a key factor influencing the applications of implant materials because of the...
Title: Optimization of properties of Ti based alloys for biomedical and structural applications Auth...
The demand of biomaterials has been continuously increasing due to ever-increasing aged population i...
Background: Nowadays, shape memory alloys (SMAs) and in particular Ni-Ti alloys are commonly used in...
The focus of this research is to determine a mathematical model for the osseointegration process of ...