A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Experimental Analysis of Energy Dissipation in Small Diameter Nitinol wires
This paper presents the methodology and findings of the experimental research carried out on small diameter Nitinol wires at Newcas tle University. Among all compositions of Shape memory alloys (SMA), Nitinol is understood to be the most suited for use in the design of building and bridge structures subjected to earthquake loading conditions. The shape memory effect and superelasticity demonstrated by Nitinol lends to higher energy dissipation capability of this alloy and hence is suited for cyclic dynamic loading conditions. A series of static and cyclic dynamic tests were developed and conducted on Nitinol wires of 1mm, 0.5mm and 0.25 mm diameters to assess their basic mechanical properties and energy dissipation capabilities. The results from these experiments agree with the trends suggested in the literature and show that smaller or t hinner the diameter of a Nitinol wire greater is it s energy dissipating capability.
Experimental Analysis of Energy Dissipation in Small Diameter Nitinol wires
This paper presents the methodology and findings of the experimental research carried out on small diameter Nitinol wires at Newcas tle University. Among all compositions of Shape memory alloys (SMA), Nitinol is understood to be the most suited for use in the design of building and bridge structures subjected to earthquake loading conditions. The shape memory effect and superelasticity demonstrated by Nitinol lends to higher energy dissipation capability of this alloy and hence is suited for cyclic dynamic loading conditions. A series of static and cyclic dynamic tests were developed and conducted on Nitinol wires of 1mm, 0.5mm and 0.25 mm diameters to assess their basic mechanical properties and energy dissipation capabilities. The results from these experiments agree with the trends suggested in the literature and show that smaller or t hinner the diameter of a Nitinol wire greater is it s energy dissipating capability.
Experimental Analysis of Energy Dissipation in Small Diameter Nitinol wires
Vemury, Chandra (author) / Renfrey, Scott (author)
2013-01-01
Vemury , C & Renfrey , S 2013 , ' Experimental Analysis of Energy Dissipation in Small Diameter Nitinol wires ' , International Journal of Scientific & Engineering Research , vol. 4 , no. 5 . < http://www.ijser.org/onlineResearchPaperViewer.aspx?Experimental-Analysis-of-Energy-Dissipation-in-Small-Diameter-Nitinol-wires.pdf >
Article (Journal)
Electronic Resource
English
DDC:
690
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