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Year 2016, Special Issue (2016), 240 - 243, 01.12.2016

Gözde Konuk Ege Nihat Akkus Mucahit Ege

https://doi.org/10.18100/ijamec.270364
Cited By: 1

Abstract

References

  • Ming H. Wu and L. Mcd. Schetky. (2000), “Industrial Applications for Shape Memory Alloys”, Proceedings of the International Conferance on Shape Memory and Superelastic Technologies, Pacific Grove, California, P.171-182
  • Huang, W. (1998),” Shape Memory Alloys and Their Application to Actuators for Deployable Structures”, University of Cambridge, Peterhouse
  • G.W. Xu, D.C. Lagoudas, D. Hughes, and J.T. Wen (1997), “Journal of Intelligent Materials and Structures.”
  • Buehler, W. J. (17.07.2013). Re-Shaping-the-Future-with-Shape-Memory-Alloys http://www.biomedicine.org/biology-technology-1/Re-Shaping-the Futurewith-Shape-Memory-Alloys---SMA-Starter-Kit-10282-1/
  • Yurtsever, Ö., (2013) http://ozguryurtsever.com/NiTiNol-2.(09.03.2014)
  • Donmez B. et al, (2010), “Precise position control using shape memory alloy wires” Turkish Journal of Electrical Engineering & Computer Sciences, Vol.18,No.5
  • Toi Y, et al, “Finite element analysis of superelastic, large deformation behaviour of shape memory ally helical springs”, Computer&Structures, Vol:82, Issues:20-21

Analysis of Mechanical Properties of Shape Memory Alloy

Year 2016, Special Issue (2016), 240 - 243, 01.12.2016

Gözde Konuk Ege Nihat Akkus Mucahit Ege

https://doi.org/10.18100/ijamec.270364
Cited By: 1

Abstract

In this study, a particular mechanism is designed to obtain the mechanical properties of shape memory alloys (SMA). Mechanical
behavior occurring due to the super elastic properties is investigated by applying current to shape memory alloys via designed mechanism.
Displacement, velocity, time, force physical effects of SMA springs is obtained for different current values, and active operating range of
springs is determined. This acquired data are of importance in determining the area of use of shape-memory alloys.
This paper presents the structure of the designed mechanism and data of mechanical properties of shape memory alloys which are obtained
by using this designed mechanism.

Keywords

SMA Shape Memory Alloy Super elastic Actuator

References

  • Ming H. Wu and L. Mcd. Schetky. (2000), “Industrial Applications for Shape Memory Alloys”, Proceedings of the International Conferance on Shape Memory and Superelastic Technologies, Pacific Grove, California, P.171-182
  • Huang, W. (1998),” Shape Memory Alloys and Their Application to Actuators for Deployable Structures”, University of Cambridge, Peterhouse
  • G.W. Xu, D.C. Lagoudas, D. Hughes, and J.T. Wen (1997), “Journal of Intelligent Materials and Structures.”
  • Buehler, W. J. (17.07.2013). Re-Shaping-the-Future-with-Shape-Memory-Alloys http://www.biomedicine.org/biology-technology-1/Re-Shaping-the Futurewith-Shape-Memory-Alloys---SMA-Starter-Kit-10282-1/
  • Yurtsever, Ö., (2013) http://ozguryurtsever.com/NiTiNol-2.(09.03.2014)
  • Donmez B. et al, (2010), “Precise position control using shape memory alloy wires” Turkish Journal of Electrical Engineering & Computer Sciences, Vol.18,No.5
  • Toi Y, et al, “Finite element analysis of superelastic, large deformation behaviour of shape memory ally helical springs”, Computer&Structures, Vol:82, Issues:20-21
There are 7 citations in total.

Details

Subjects Engineering
Journal Section Research Article
Authors

Gözde Konuk Ege

Nihat Akkus

Mucahit Ege This is me

Publication Date December 1, 2016
Published in Issue Year 2016 Special Issue (2016)

Cite

APA Konuk Ege, G., Akkus, N., & Ege, M. (2016). Analysis of Mechanical Properties of Shape Memory Alloy. International Journal of Applied Mathematics Electronics and Computers(Special Issue-1), 240-243. https://doi.org/10.18100/ijamec.270364
AMA Konuk Ege G, Akkus N, Ege M. Analysis of Mechanical Properties of Shape Memory Alloy. International Journal of Applied Mathematics Electronics and Computers. December 2016;(Special Issue-1):240-243. doi:10.18100/ijamec.270364
Chicago Konuk Ege, Gözde, Nihat Akkus, and Mucahit Ege. “Analysis of Mechanical Properties of Shape Memory Alloy”. International Journal of Applied Mathematics Electronics and Computers, no. Special Issue-1 (December 2016): 240-43. https://doi.org/10.18100/ijamec.270364.
EndNote Konuk Ege G, Akkus N, Ege M (December 1, 2016) Analysis of Mechanical Properties of Shape Memory Alloy. International Journal of Applied Mathematics Electronics and Computers Special Issue-1 240–243.
IEEE G. Konuk Ege, N. Akkus, and M. Ege, “Analysis of Mechanical Properties of Shape Memory Alloy”, International Journal of Applied Mathematics Electronics and Computers, no. Special Issue-1, pp. 240–243, December 2016, doi: 10.18100/ijamec.270364.
ISNAD Konuk Ege, Gözde et al. “Analysis of Mechanical Properties of Shape Memory Alloy”. International Journal of Applied Mathematics Electronics and Computers Special Issue-1 (December 2016), 240-243. https://doi.org/10.18100/ijamec.270364.
JAMA Konuk Ege G, Akkus N, Ege M. Analysis of Mechanical Properties of Shape Memory Alloy. International Journal of Applied Mathematics Electronics and Computers. 2016;:240–243.
MLA Konuk Ege, Gözde et al. “Analysis of Mechanical Properties of Shape Memory Alloy”. International Journal of Applied Mathematics Electronics and Computers, no. Special Issue-1, 2016, pp. 240-3, doi:10.18100/ijamec.270364.
Vancouver Konuk Ege G, Akkus N, Ege M. Analysis of Mechanical Properties of Shape Memory Alloy. International Journal of Applied Mathematics Electronics and Computers. 2016(Special Issue-1):240-3.

Cited By

A Benchmark Study for Phase Transformation of Shape Memory Alloy Based Split Ring Resonator Structure Under a Heating and Cooling Thermal Cycle
DÜMF Mühendislik Dergisi
https://doi.org/10.24012/dumf.562197

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