3D Printed Nitinol Opens New Possibilities for Arterial Stents | Additive Manufacturing
ASTM F2516 Tension Testing of Nitinol How to Guide - ADMET
Polymers | Free Full-Text | Theoretical and Numerical Analysis of Mechanical Behaviors of a Metamaterial-Based Shape Memory Polymer Stent
PDF] Self-expanding stents based on shape memory alloys and shape memory polymers | Semantic Scholar
Shape memory alloy muscles. A. A heart stent. B. Conversion between... | Download Scientific Diagram
Applications
Shape memory alloy: What is one and what are their medical uses?
Organic crystals use shape-memory to improve plastic electronics
Self-expanding stents based on shape memory alloys and shape memory polymers | Journal of Composites and Compounds
Changing the way materials remember, new limits allow new applications | Engineering.com
Micromachined Shape Memory Alloy Active Stent with Wireless Monitoring and Re-Expansion Features | Semantic Scholar
An Ultra-Thin Shape Memory Alloy For Stretchier Stents And Quake-Proof Buildings
The Elephants of Materials Science: SMAs Never Forget Their Shape | COMSOL Blog
Micromachined Shape Memory Alloy Active Stent with Wireless Monitoring and Re-Expansion Features | Semantic Scholar
Shape Memory Alloy Self-Expanding Stent
2. Applications of shape memory alloys (SMAs) (a) as an artificial... | Download Scientific Diagram
Micromachined Shape Memory Alloy Active Stent with Wireless Monitoring and Re-Expansion Features | Semantic Scholar
Super Elastic Nitinol Wire / Medical Nitinol Flat Wire Shape Memory Alloy for Stents - China Nitinol, Nickel Titanium Shape Memory Alloy Wire | Made-in-China.com
How to Train Shape Memory Alloys | T2 Portal
COMSOL Multiphysics - This biomedical stent is made of a shape memory alloy material that allows it to expand when heated. Learn how to simulate this process in a new tutorial available
Insertion of a transparent shape-memory polymer stent through a 22 mm... | Download Scientific Diagram