Scott W. Robertson scite author profile

Nitinol, a near equiatomic intermetallic of nickel and titanium, is the most widely known and used shape memory alloy. Owing to its capacity to undergo a thermal or stress induced martensitic phase transformation, Nitinol displays recoverable strains that are more than an order of magnitude greater than in traditional alloys, specifically as high as 10%. Since its discovery in the 1960s, Nitinol has been used for its shape memory properties for couplings and actuators, although its contemporary use has been in for medical devices. For these applications, the stress induced transformation ('superelasticity') has been used extensively for self-expanding implantable devices such as endovascular stents and vena cava filters, and for tools such as endodontic files. Most of these applications involve cyclically varying biomechanical stresses or strains that drive the need to fully understand the fatigue and fracture resistance of this alloy. Here we review the existing knowledge base on the fatigue of Nitinol, both in terms of their stress or strain life (total life) and damage tolerant (crack propagation) behaviour, together with their fracture toughness properties. We further discuss the application of such data to the fatigue design and life prediction methodologies for Nitinol implant devices used in the medical industry.

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In vitro fatigue–crack growth and fracture toughness behavior of thin-walled superelastic Nitinol tube for endovascular stents: A basis for defining the effect of crack-like defects

Robertson

Ritchie

2007

Biomaterials

141

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A statistical approach to understand the role of inclusions on the fatigue resistance of superelastic Nitinol wire and tubing

Robertson¹,

Launey²,

Shelley³

et al. 2015

Journal of the Mechanical Behavior of Biomedical Materials

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Effect of microstructure on the fatigue of hot-rolled and cold-drawn NiTi shape memory alloys

Gall¹,

Tyber²,

Wilkesanders³

et al. 2008

Materials Science and Engineering: A

134

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Evolution of crack-tip transformation zones in superelastic Nitinol subjected to in situ fatigue: A fracture mechanics and synchrotron X-ray microdiffraction analysis

Robertson

Mehta

Pelton³

et al. 2007

Acta Materialia

147

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Complex Retrieval of Fractured, Embedded, and Penetrating Inferior Vena Cava Filters: A Prospective Study with Histologic and Electron Microscopic Analysis

Kuo

Robertson²,

Odegaard

et al. 2013

Journal of Vascular and Interventional Radiology

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Influence of microstructural purity on the bending fatigue behavior of VAR-melted superelastic Nitinol

Launey¹,

Robertson²,

Vien³

et al. 2014

Journal of the Mechanical Behavior of Biomedical Materials

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