Shape Memory Polymer For Stent

June 22, 2026
Media Summary: Demonstration video from our 4th year design symposium in Nanotechnology engineering at the University of Waterloo. Reference: Srivastava, V., Chester, S.A., and Anand, L., "Thermally-actuated Andrew Holden (Auckland, New Zealand) and Michel Reijnen (Arnhem, The Netherlands) discuss

Shape Memory Polymer For Stent - Detailed Analysis & Overview

Demonstration video from our 4th year design symposium in Nanotechnology engineering at the University of Waterloo. Reference: Srivastava, V., Chester, S.A., and Anand, L., "Thermally-actuated Andrew Holden (Auckland, New Zealand) and Michel Reijnen (Arnhem, The Netherlands) discuss There is an increasing awareness that we need to get aneurysm sacs to regress after endovascular aneurysm repair [EVAR],” ... ... Mechanical Engineering; Using a 3D printer, a Nitinol is an extraordinary material known as an

For an explanation of the science behind this material, watch: Elastic materials ... By Ricky Marshall, Lauren Nalley, and Alex Walther. New research has shown that honeycomb “cellular” materials made of a Variable stiffness catheters are typically composed of an encapsulated core. The core is usually composed of a low melting point ...

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InstaFix Shape Memory Fixation System
Shape Memory Polymer (for stent application)
Finite element simulation of a shape memory polymer stent deployment inside a tubular artery
Shape Memory Polymer addresses an “unmet need” for EVAR
Elastic shape memory polymeric stent with retraction function
Shape memory polymer: “Another step down the road” toward active aneurysm sac management
Nitinol stent - elastic memory
4D Printed Bifurcated Stents with Kirigami-Inspired Structures | Protocol Preview
Material Characterization of Nitinol Stents
Shape Memory Polymers: Plastic with a Brain, and Some Muscle
Shape Memory Polymers
Programmable Materials: Shape-Memory Polymers

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InstaFix Shape Memory Fixation System

InstaFix Shape Memory Fixation System

The InstaFix

Shape Memory Polymer (for stent application)

Shape Memory Polymer (for stent application)

Demonstration video from our 4th year design symposium in Nanotechnology engineering at the University of Waterloo.

Finite element simulation of a shape memory polymer stent deployment inside a tubular artery

Finite element simulation of a shape memory polymer stent deployment inside a tubular artery

Reference: Srivastava, V., Chester, S.A., and Anand, L., "Thermally-actuated

Shape Memory Polymer addresses an “unmet need” for EVAR

Shape Memory Polymer addresses an “unmet need” for EVAR

Andrew Holden (Auckland, New Zealand) and Michel Reijnen (Arnhem, The Netherlands) discuss

Elastic shape memory polymeric stent with retraction function

Elastic shape memory polymeric stent with retraction function

2009 EID project.

Shape memory polymer: “Another step down the road” toward active aneurysm sac management

Shape memory polymer: “Another step down the road” toward active aneurysm sac management

There is an increasing awareness that we need to get aneurysm sacs to regress after endovascular aneurysm repair [EVAR],” ...

Nitinol stent - elastic memory

Nitinol stent - elastic memory

Shape

4D Printed Bifurcated Stents with Kirigami-Inspired Structures | Protocol Preview

4D Printed Bifurcated Stents with Kirigami-Inspired Structures | Protocol Preview

... Mechanical Engineering; Using a 3D printer, a

Material Characterization of Nitinol Stents

Material Characterization of Nitinol Stents

Nitinol is an extraordinary material known as an

Shape Memory Polymers: Plastic with a Brain, and Some Muscle

Shape Memory Polymers: Plastic with a Brain, and Some Muscle

For an explanation of the science behind this material, watch: https://www.youtube.com/watch?v=2DE3D9SLev8 Elastic materials ...

Shape Memory Polymers

Shape Memory Polymers

By Ricky Marshall, Lauren Nalley, and Alex Walther.

Programmable Materials: Shape-Memory Polymers

Programmable Materials: Shape-Memory Polymers

New research has shown that honeycomb “cellular” materials made of a

Thermoset Shape Memory Polymer Variable Stiffness 4D Robotic Catheters

Thermoset Shape Memory Polymer Variable Stiffness 4D Robotic Catheters

Variable stiffness catheters are typically composed of an encapsulated core. The core is usually composed of a low melting point ...