ADVANCED MATERIALS & PROCESSES | MARCH 2025 40 10 FEATURE 6. ASTM F2063–18: Standard Specification for Wrought Nickel-Titanium Shape Memory Alloys for Medical Devices and Surgical Implants, ASTM International, West Conshohocken, PA, www.astm.org, 2018. 7. ASTM F2082/F082M–16: Standard Test Method for Determination of Transformation Temperature of Nickel- Titanium Shape Memory Alloys by Bend and Free Recovery, ASTM International, West Conshohocken, PA, www.astm.org, 2016. 8. K.N. Melton, Ni-Ti Based Shape Memory Alloys, Engineering Aspects of Shape Memory Alloys, 344, p 21-25, 1990. 9. M.F. Urbano, et al., Inclusions Size-based Fatigue Life Prediction Model of NiTi Alloy for Biomedical Applications, Shape Memory and Superelasticity, 1, p 240-251, 2015. 10. ASTM E1172–16: Standard Practice for Describing and Specifying a Wavelength Dispersive X-Ray Spectrometer, ASTM International, West Conshohocken, PA, www.astm. org, 2016. 11. ASTM E112–13: Standard Test Methods for Determining Average Grain Size, ASTM International, West Conshohocken, PA, www.astm.org, 2021. 12. ASTM E1245-03: Standard Practice for Determining the Inclusion or Second-Phase Constituent Content of Metals by Automatic Image Analysis, ASTM International, West Conshohocken, PA, www.astm.org, 2023. 13. ASTM E8/E8M-22: Standard Test Methods for Tension Testing of Metallic Materials, ASTM International, West Conshohocken, PA, www.astm.org, 2022. 14. J.M. Jani, et al., A Review of Shape Memory Alloy Research, Applications and Opportunities. Materials & Design (1980-2015), 56, p 1078-1113, 2014. 15. D.J. Hartl, et al., Standardization of Shape Memory Alloy Test Methods Toward Certification of Aerospace Applications, Smart Materials and Structures, 24(8), p 082001, 2015. 16. D.E. Nicholson, et al., Standardization of Shape Memory Alloys from Material to Actuator, Shape Memory and Superelasticity, 9(2), p 353-363, 2023. 17. ASTM E3097–23: Standard Test Method for Mechanical Uniaxial Constant Force Thermal Cycling of Shape Memory Alloys, ASTM International, West Conshohocken, PA, www.astm.org, 2023. 18. ASTM E3098–24: Standard Test Method for Mechanical Uniaxial Pre-strain and Thermal Free Recovery of Shape Memory Alloys, ASTM International, West Conshohocken, PA, www.astm.org, 2024. 19. ASTM E3414–23: Standard Test Method for Constant Torque Thermal Cycling of Cylindrical Shape Memory Alloy Specimens, ASTM International, West Conshohocken, PA, www.astm.org, 2023. 20. VDI 2248 Blatt 1-5, https://www.vdi.de/richtlinien/details/ vdi-2248-blatt-1-produktentwicklung-mit-formgedaechtnislegierungen-fgl-grundlagen-und-anwendungsbeispiele. 21. JIS-Japanese Industrial Standards, JIS H 7107, JIS H 7101, JIS H 7001, JIS H 7103, JIS H 7105, JIS H 7106, JIS H 7404, https://webdesk.jsa.or.jp/books/W11M0090/index/?bunsyo_id=JIS+H+7107%3A2009. 22. ASTM E2283–08: Standard Practice for Extreme Value Analysis of Nonmetallic Inclusions in Steel and Other Microstructural Features, ASTM International, West Conshohocken, PA, www.astm.org, 2019. 23. A. Demblon, J.H. Mabe, and I. Karaman, NiTiHf Actuation Fatigue: How Much Do We Really Know? AM&P, 182(7), p 42-46, 2024. 24. F. Louia, et al., Focus on Caloric Materials and Devices, J. Phys. Energy, 5, p 045014, 2023. 25. J.E. Bringas, Handbook of Comparative World Steel Standards, 2004. Interested in advertising with the ASM Shape Memory and Superelastic Technologies community? Contact Kelly “KJ” Johanns at kj.johanns@asminternational.org.
RkJQdWJsaXNoZXIy MTYyMzk3NQ==