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SHAYANFARD, P. HELLER, L. ŠANDERA, P. ŠITTNER, P.
Originální název
Numerical analysis of NiTi actuators with stress risers: The role of bias load and actuation temperature
Typ
článek v časopise ve Web of Science, Jimp
Jazyk
angličtina
Originální abstrakt
NiTi wires and thin ribbons are used in shape memory actuators as active elements undergoing repeated thermal cycles. The NiTi actuators operate either under constant force (CF loading constraint) or they act against a variable force (VF loading constraint) from an elastic bias spring. Any stress riser represents a danger for potential actuator failure upon cycling. Although NiTi actuators always include stress risers either inherently in their design or as material flaws, their effect on actuation performance has, however, not been studied thoroughly yet. This issue is addressed in the present paper through numerical analysis of the effects of actuation load type (CF or VF loading constraint), maximum temperature, and stiffness of the bias springs (in VF loading constraint) on the local evolution of martensitic transformation (MT) and mechanical fields around the notch upon the cyclic thermomechanical loading of a thin NiTi shape memory notched ribbon. The analyses clearly show a strong amplification effect of the transformation strain on the stress concentration factor. The results reveal that the evolution of the forward MT upon cooling causes a sharp stress peak around the notch-tip the magnitude of which depends on the bias spring stiffness while upon heating, the stress at the notch-tip area relaxes due to the reverse MT of the surrounding bulk. Moreover, the simulations indicate that any overheating during the actuation is harmful to the notch-tip as the complete reverse MT at the notch-tip has stress rising effect while incomplete MT at the notch-tip has stress relaxing effect.
Klíčová slova
NiTi; Shape memory alloy; Thermal actuator; Thermomechanical cycling; Stress riser; Notched ribbon; Martensitic transformation; Variable force; Constant force; Overheating
Autoři
SHAYANFARD, P.; HELLER, L.; ŠANDERA, P.; ŠITTNER, P.
Vydáno
23. 1. 2021
ISSN
1873-7315
Periodikum
ENGINEERING FRACTURE MECHANICS
Ročník
244
Číslo
1
Stát
Spojené království Velké Británie a Severního Irska
Strany od
107551-1
Strany do
107551-11
Strany počet
11
URL
https://www.sciencedirect.com/science/article/pii/S001379442100028X?via%3Dihub