References
- Abd-Elghany, M. & Klapötke, T.M. (2018) A review on differential scanning calorimetry technique and its importance in the field of energetic materials. Physical Sciences Reviews, 20170103, 1-14.
- Alam, M.S., Youssef, M.A. & Nehdi, M. (2005) Shape memory alloys as a new construction material. In: Proceedings of Cansmart 2005 – the 8th International Workshop on Smart Materials and Structures, 123-132.
- Ashrafiuon, H. & Elahinia, M.H. (2016) Control of SMA Actuators. In: Elahinia, M.H. (Ed.) Shape Memory Alloy Actuators: Design, Fabrication, and Experimental Evaluation. Hoboken, NJ, John Wiley&Sons, 125-154.
- Cederström, J. & Humbeeck, J. Van (1995) Relationship between shape memory material properties and applications. Journal de Physique IV Colloque, 05(C2), C2-335-C2-341.
- Chang, W-S. & Araki, Y. (2016) Use of shape memory alloy in construction: a critical review. In: Proceedings of the ICE – Civil Engineering, 169(2), 87-95.
- Degeratu, S., Bizdoaca, N.G., Manolea, G., Diaconu, I., Petrisor, A. & Degeratu, V. (2008) On the design of a shape memory alloy spring actuator using thermal analysis. WSEAS Transactions on Systems, 10(7), 1006-1015.
- Fang, C., Qiu, C. & Zheng, Y. (2023) Shape memory alloys for civil engineering. Materials, 16(2), 787.
- Follador, M., Cianchetti, M., Arienti, A. & Laschi, C. (2012) A general method for the design and fabrication of shape memory alloy active spring actuators. Smart Materials and Structures, 21, 115029, 1-10.
- Hattori, S., Hara, M., Nabae, H., Hwang, D. & Higuchi, T. (2014) Design of an impact drive actuator using a shape memory alloy wire. Sensors and Actuators, A219, 47-57.
- Hu, K., Rabenorosoa, K. & Ouisse, M. (2021) A review of SMA-based actuators for bidirectional rotational motion: Application to origami robots. Frontiers in Robotics and Al, 8, 678486, 1-21. Huang, W. (2002) On the selection of shape memory alloys for actuators. Materials and Design, 23, 11-19.
- Kuś, K., Frączyk, A. & Wojtkowiak, A. (2019) Metallic alloy with shape memory-selected properties and engineering aspects. Technical Sciences, 4(22), 337-350.
- Mansourizadeh, K., Golahmadi, A., Paoletti, I.M. & Anishchenko, M. (2021) Design of a passive mechanical system actuated by the nitinol helical springs for shading and sustainable development purposes of the buildings. Building and Environment, 187, 107385, 1-15.
- Mavroidis, C. (2002) Development of advanced actuators using shape memory alloys and electro-rheological fluids. Research in Nondestructive Evaluation, 14, 1-32.
- Memry Corporation (2017) Introduction to Nitinol. Bethel-Menlo Park-New Hartford, USA, 1-41. https://www.memry.com/intro-to-nitinol.
- Mohd Jani, J., Leary, M., Subic, A. & Gibson, M.A. (2014) A review of shape memory alloy research, applications and opportunities. Materials and Design, 56, 1078-1113.
- Nespoli, A., Villa, E., Bergo, L., Rizzacasa, A. & Passaretti, F. (2015) DSC and three-point bending test for the study of the thermo-mechanical history of NiTi and NiTi-based orthodontic archwires. Journal of Thermal Analysis and Calorimetry, 120, 1129-1138.
- Oshida, Y. & Tominaga, T. (2020) Nickel-Titanium Materials. Biomedical Applications. Berlin, Boston, De Gruyter.
- Rao, A., Srinivasa, A.R. & Reddy, J.N. (2015) Design of shape memory alloy (SMA) actuators. Springer International Publishing.
- Reynaerts, D. & Van Brussel, H. (1998) Design aspects of shape memory actuators, Mechatronics, 8, 635-656.
- Sadashiva, M., Nouman, K., Ramesh, K. & Deve Gowda, T.M. (2021) A review on application of shape memory alloys. International Journal of Recent Technology and Engineering, 9(6), 110-120.
- Sharma, N., Jangra, K.K. & Raj, T. (2018) Fabrication of NiTi alloy: A review. In: Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications, 232(3), 250-269.
- Stoeckel, D. (1995) The Shape Memory Effect – Phenomenon, Alloys and Applications. In: Proceedings: Shape Memory Alloys for Power Systems EPRI, 1-13.
- Turabi, A.S., Saedi, S., Saghaian, S.M., Karaca, H.E. & Elahinia, M.H. (2016) Experimental Characterization of Shape Memory Alloys. In: Elahinia, M.H. (Ed.) Shape Memory Alloy Actuators: Design, Fabrication, and Experimental Evaluation. Hoboken, NJ, USA, John Wiley&Sons, 239-277.
- Weirich, A. & Kuhlenkötter, B. (2019) Applicability of shape memory alloys in aircraft interiors. Actuators, 8(61), 1-13.