Modeling and experimental validation of the hysteretic dynamics of shape memory alloy springs

Aguiar, R. A. A., Savi, M. A. and Pacheco, P. M. C. L. 2010. Experimental and numerical investigations of shape memory alloy helical springs. Smart Materials and Structures 19(025008): 9. Aguiar R. A. A. Savi M. A. and Pacheco P. M. C. L. 2010 Experimental and numerical investigations of shape memory alloy helical springs Smart Materials and Structures 19 (025008) 9 Search in Google Scholar

Alahi, E. E., Nag, A., Chandra, S. and Burkitt, L. 2018. Sensors and actuators A: physical A temperature-compensated graphene sensor for nitrate monitoring in real-time application. Sensors and Actuators A: Physical 269: 79–90. Alahi E. E. Nag A. Chandra S. and Burkitt L. 2018 Sensors and actuators A: physical A temperature-compensated graphene sensor for nitrate monitoring in real-time application Sensors and Actuators A: Physical 269 79 – 90 Search in Google Scholar

Bales, G. S. and Gooding, R. J. 1991. Interfacial dynamics at a first-order phase transition involving strain. Physical Review Letters 67(24): 3412–3415. Bales G. S. and Gooding R. J. 1991 Interfacial dynamics at a first-order phase transition involving strain. Physical Review Letters 67 (24) 3412 – 3415 Search in Google Scholar

Dong, Y., Boming, Z. and Jun, L. 2008. A changeable aerofoil actuated by shape memory alloy springs. Materials Science and Engineering A 485(1–2): 243–250. Dong Y. Boming Z. and Jun L. 2008 A changeable aerofoil actuated by shape memory alloy springs Materials Science and Engineering A 485(1–2) 243 – 250 Search in Google Scholar

Enemark, S., Santos, I. F. and Savi, M. A. 2016. Modelling, characterisation and uncertainties of stabilised pseudoelastic shape memory alloy helical springs. Journal of Intelligent Material Systems and Structures 27(20): 2721–2743. Enemark S. Santos I. F. and Savi M. A. 2016 Modelling, characterisation and uncertainties of stabilised pseudoelastic shape memory alloy helical springs Journal of Intelligent Material Systems and Structures 27 (20) 2721 – 2743 Search in Google Scholar

Gédouin, P., Pino, L., Arbab, S., Calloch, S., Delaleau, E. and Bourgeot, J. 2019. Sensors and actuators A: physical R-phase shape memory alloy helical spring based actuators: modeling and experiments. Sensors and Actuators A: Physical 289: 65–76. Gédouin P. Pino L. Arbab S. Calloch S. Delaleau E. and Bourgeot J. 2019 Sensors and actuators A: physical R-phase shape memory alloy helical spring based actuators: modeling and experiments Sensors and Actuators A: Physical 289 65 – 76 Search in Google Scholar

Kumar, P. K. and Lagoudas, D. C. 2008. Introduction to shape memory alloys. Kumar P. K. and Lagoudas D. C. 2008 Introduction to shape memory alloys Search in Google Scholar

Liang, C. and Rogers, C. A. 1990. One-dimensional thermomechanical constitutive relations for shape memory materials. Journal of Intelligent Material Systems and Structures 1(2): 207–234. Liang C. and Rogers C. A. 1990 One-dimensional thermomechanical constitutive relations for shape memory materials Journal of Intelligent Material Systems and Structures 1 (2) 207 – 234 Search in Google Scholar

Liang, C. and Rogers, C. A. 1993. Design of shape memory alloy springs with applications in vibration control. Journal of Vibration and Acoustics 115(1): 129–135. Liang C. and Rogers C. A. 1993 Design of shape memory alloy springs with applications in vibration control Journal of Vibration and Acoustics 115 (1) 129 – 135 Search in Google Scholar

Ma, J., Huang, H. and Huang, J. 2013. Characteristics analysis and testing of SMA spring actuator. Advances in Material Science and Engineering 2013(1): 1–7. Ma J. Huang H. and Huang J. 2013 Characteristics analysis and testing of SMA spring actuator Advances in Material Science and Engineering 2013 (1) 1 – 7 Search in Google Scholar

Morin, C., Moumni, Z. and Zaki, W. 2011. A constitutive model for shape memory alloys accounting for thermomechanical coupling. International Journal of Plasticity 27(5): 748–767. Morin C. Moumni Z. and Zaki W. 2011 A constitutive model for shape memory alloys accounting for thermomechanical coupling International Journal of Plasticity 27 (5) 748 – 767 Search in Google Scholar

Pirbhulal, S. 2019. Medical information security for wearable body sensor networks in smart healthcare. IEEE Consumer Electronics Magazine 8(5): 37–41. Pirbhulal S. 2019 Medical information security for wearable body sensor networks in smart healthcare IEEE Consumer Electronics Magazine 8 (5) 37 – 41 Search in Google Scholar

Pirbhulal, S., Zhang, H., Alahi, E. E. and Ghayvat, H. 2017. A novel secure IoT-based smart home automation. Sensors 17(69): 1–19. Pirbhulal S. Zhang H. Alahi E. E. and Ghayvat H. 2017 A novel secure IoT-based smart home automation Sensors 17 (69) 1 – 19 Search in Google Scholar

Rao, A., Srinivasa, A. R. and Reddy, J. N. 2015. Design of shape memory alloy (SMA) actuators. Rao A. Srinivasa A. R. and Reddy J. N. 2015 Design of shape memory alloy (SMA) actuators Search in Google Scholar

Savi, M. A., Pacheco, P. M. C. L. and Garcia, M. S. 2015. Nonlinear geometric influence on the mechanical behavior of shape memory alloy helical springs 24: 035012. Savi M. A. Pacheco P. M. C. L. and Garcia M. S. 2015 Nonlinear geometric influence on the mechanical behavior of shape memory alloy helical springs 24 035012 Search in Google Scholar

Tobushi, H. and Kikuaki, T. 1991. Deformation of a shape memory alloy helical Spring. SME International Journal 34(1): 83–89. Tobushi H. and Kikuaki T. 1991 Deformation of a shape memory alloy helical Spring SME International Journal 34(1) 83 – 89 Search in Google Scholar

Toi, Y., Lee, J. and Taya, M. 2004. Finite element analysis of superelastic, large deformation behavior of shape memory alloy helical springs. Materials Science and Engineering A 82(20–21): 1685–1693. Toi Y. Lee J. and Taya M. 2004 Finite element analysis of superelastic, large deformation behavior of shape memory alloy helical springs Materials Science and Engineering A 82 (20–21) 1685 – 1693 Search in Google Scholar

Wahl, A. M. 1963. Wahl, A. M. Mechanical Springs, McGraw-Hill, London. Wahl A. M. 1963 Wahl, A. M. Mechanical Springs McGraw-Hill, London Search in Google Scholar

Wang, J., Moumni, Z. and Zhang, W. 2017. A thermomechanically coupled finite-strain constitutive model for cyclic pseudoelasticity of polycrystalline shape memory alloys. International Journal of Plasticity 97: 194–221. Wang J. Moumni Z. and Zhang W. 2017 A thermomechanically coupled finite-strain constitutive model for cyclic pseudoelasticity of polycrystalline shape memory alloys International Journal of Plasticity 97 194 – 221 Search in Google Scholar

Wang, L. and Melnik, R. V. N. 2012. Nonlinear dynamics of shape memory alloy oscillators in tuning structural vibration frequencies. Mechatronics 22(8): 1085–1096. Wang L. and Melnik R. V. N. 2012 Nonlinear dynamics of shape memory alloy oscillators in tuning structural vibration frequencies Mechatronics 22(8) 1085 – 1096 Search in Google Scholar

Wang, L.and Melnik, R. V. N. 2004. Dynamics of shape memory alloys patches. Materials Science and Engineering A 378(1–2): 470–474. Wang L. and Melnik R. V. N. 2004 Dynamics of shape memory alloys patches Materials Science and Engineering A 378(1–2) 470 – 474 Search in Google Scholar

Wu, W., Pirbhulal, S. and Kumar, A. 2018. Optimization of signal quality over comfortability of textile electrodes for ECG monitoring in fog computing based medical applications optimization of signal quality over comfortability of textile electrodes for ECG monitoring in fog computing based medical applications. Future Generation Computer Systems 86(January): 515–526. Wu W. Pirbhulal S. and Kumar A. 2018 Optimization of signal quality over comfortability of textile electrodes for ECG monitoring in fog computing based medical applications optimization of signal quality over comfortability of textile electrodes for ECG monitoring in fog computing based medical applications Future Generation Computer Systems 86(January) 515 – 526 Search in Google Scholar

Zhou, C., Wang, L. and Feng, C. 2009. Nonlinear differential equation approach for the two-way shape memory effects of one-dimensional shape memory alloy structures. The International Society for Optical Engineering, 12–14. Zhou C. Wang L. and Feng C. 2009 Nonlinear differential equation approach for the two-way shape memory effects of one-dimensional shape memory alloy structures The International Society for Optical Engineering 12 – 14 Search in Google Scholar