Here we dive into the fatigue properties of various advanced materials, including the fatigue and corrosion fatigue performance of cold-drawn WE43 wires and the fatigue behavior of Nitinol round wire with varying cold work reductions. The research also covers the characterization of the fatigue response in nickel-titanium alloys and the impact of melt practices and surface finishes on fatigue properties.

• Fatigue and Corrosion Fatigue of Cold Drawn WE43 Wires
• Fatigue Performance of Nitinol Round Wire with Varying Cold Work Reductions
• Characterizing Fatigue Response of Nickel-Titanium
• The Significance of Melt Practice on Fatigue Properties
• An Investigation of Diverse Surface Finishes on Fatigue
• The Influence of Melt Practice on Final Fatigue
• Fatigue Failure Analysis of Enhanced 35N LT®
• A Hierarchical Initiation Mechanism Approach to Modeling Fatigue Behavior
• Structure-Property Relationships in Conventional and Nanocrystalline NiTi Intermetallic Alloy Wire
• Cold-Drawn Bioabsorbable Ferrous and Ferrous Composite Wires: An Evaluation of Mechanical Strength and Fatigue Durability
• Characterization of Binary Nitinol Actuators with Various Transformation Temperatures Employing Uniaxial Isobaric Loading