Add to ORKGAbstract Shape memory alloys have vast use in medical applications. Currently it is mainly about the construction of stents or other types of implants. Nowadays, new types of wires with shape memory effect are tested for medical use. These wires are prepared as drawn filled tubes. Drawn filled wires have unique mechanical and physical properties. Specific properties of drawn filled wires arise through a combination of two materials with different physical properties. This article is devoted to fractographical analysis of fatigue fracture process in drawn filled wires made of nitinol with platinium core
Nickel-Titanium alloys (Nitinol) are widely used for biomedical applications. Peripheral stents are ...
This thesis discusses the fatigue and fracture properties of NiTi polycrystals. Systematic experimen...
The fatigue performance of shape memory alloys is one of the main features to assess their potential...
Superelastic wires of shape memory alloys are used for medical devices, but there has not been a sys...
Nitinol, a nickel titanium alloy, is widely used as a biocompatible metal with applications in high ...
Nickel-Titanium (NiTi) alloys with superelastic properties have been increasingly introduced as a su...
Current standards consider the size and distri- bution of inclusions in semi-finished material, but ...
ABSTRACT: With respect to a dynamic test protocol, fatigue information has been reliable in predicti...
In the field of NiTi alloys medical implants, it becomes a necessity to have a good understanding of...
Nickel-Titanium (NiTi) alloys with superelastic properties have been increasingly introduced as a su...
Composites containing shape memory alloys in the form of fibres are well-known for their use as actu...
ABSTRACT Pt-20Ir cold draw wire has been used as lead conductor in implantable medical devices. The ...
A new experimental method for characterizing intrinsic uniaxial pull-pull pseudoelastic fatigue life...
Nitinol is an alloy of nickel and titanium, which exhibits outstanding functional properties, such a...
Shape memory alloys, such as binary NiTi alloy, have gained the attention of researchers, thanks to...
Nickel-Titanium alloys (Nitinol) are widely used for biomedical applications. Peripheral stents are ...
This thesis discusses the fatigue and fracture properties of NiTi polycrystals. Systematic experimen...
The fatigue performance of shape memory alloys is one of the main features to assess their potential...
Superelastic wires of shape memory alloys are used for medical devices, but there has not been a sys...
Nitinol, a nickel titanium alloy, is widely used as a biocompatible metal with applications in high ...
Nickel-Titanium (NiTi) alloys with superelastic properties have been increasingly introduced as a su...
Current standards consider the size and distri- bution of inclusions in semi-finished material, but ...
ABSTRACT: With respect to a dynamic test protocol, fatigue information has been reliable in predicti...
In the field of NiTi alloys medical implants, it becomes a necessity to have a good understanding of...
Nickel-Titanium (NiTi) alloys with superelastic properties have been increasingly introduced as a su...
Composites containing shape memory alloys in the form of fibres are well-known for their use as actu...
ABSTRACT Pt-20Ir cold draw wire has been used as lead conductor in implantable medical devices. The ...
A new experimental method for characterizing intrinsic uniaxial pull-pull pseudoelastic fatigue life...
Nitinol is an alloy of nickel and titanium, which exhibits outstanding functional properties, such a...
Shape memory alloys, such as binary NiTi alloy, have gained the attention of researchers, thanks to...
Nickel-Titanium alloys (Nitinol) are widely used for biomedical applications. Peripheral stents are ...
This thesis discusses the fatigue and fracture properties of NiTi polycrystals. Systematic experimen...
The fatigue performance of shape memory alloys is one of the main features to assess their potential...