Previous studies on shape memory alloys often related to one of the most usable type called Ni-Ti. However, many researchers are trying to find alternative alloys because of high cost and complex behavior of this alloy due to the high dependence of strain rate. The present study has been evaluated on properties of new alloy Cu-Al-Mn that has been introduced by Japanese researcher Araki. Also, it has been assessed ability of behavioral models for numerical simulation. The alloy with a superelasticity comparable to Ni–Ti alloys has more suitable cost and low dependence of strain rate. Based on properties of this alloy, the ability of three rate-independent model has been evaluated using; Graesser-Cozzarelli, Fugazza, Self-centering for numeri...
The microstructure, mechanical behaviour and damping properties of Cu–18Zn–7Al–xNi alloys (where x =...
This study explores the superelastic behavior of a recently developed Ni45.3Ti29.7Hf20Pd5 alloy that...
Shape memory alloys (SMAs) with double martensitic transitions are potential candidates for highly e...
The industrial development of shape memory alloys needs an accurate prediction of their behavior for...
. Starting from a general Landau-type 3D model for the shape memory alloy dynamics we have developed...
Among the copper base shape memory alloys the most popular are CuZnAl alloys which however show seve...
The manganese-copper alloys are studied. The purpose is to determine the appropriatenesses of the me...
ABSTRACT: A quasi-static model for NiMnGa magnetic shape memory alloy is formulated along the lines ...
SummaryAmong different shape memory alloys, copper (Cu) based alloys were the most favourable alloys...
Among different shape memory alloys, copper (Cu) based alloys were the most favourable alloys, becau...
Despite the wide use of copper alloys in thermo-mechanical applications, there is little data on the...
The superelastic behavior of shape memory alloys is useful for several industrial applications. To d...
Shape memory alloys (SMAs) have been extensively investigated because of their unique shape memory b...
This thesis has reviewed the development and the current status in the research field of copper-base...
This electronic version was submitted by the student author. The certified thesis is available in th...
The microstructure, mechanical behaviour and damping properties of Cu–18Zn–7Al–xNi alloys (where x =...
This study explores the superelastic behavior of a recently developed Ni45.3Ti29.7Hf20Pd5 alloy that...
Shape memory alloys (SMAs) with double martensitic transitions are potential candidates for highly e...
The industrial development of shape memory alloys needs an accurate prediction of their behavior for...
. Starting from a general Landau-type 3D model for the shape memory alloy dynamics we have developed...
Among the copper base shape memory alloys the most popular are CuZnAl alloys which however show seve...
The manganese-copper alloys are studied. The purpose is to determine the appropriatenesses of the me...
ABSTRACT: A quasi-static model for NiMnGa magnetic shape memory alloy is formulated along the lines ...
SummaryAmong different shape memory alloys, copper (Cu) based alloys were the most favourable alloys...
Among different shape memory alloys, copper (Cu) based alloys were the most favourable alloys, becau...
Despite the wide use of copper alloys in thermo-mechanical applications, there is little data on the...
The superelastic behavior of shape memory alloys is useful for several industrial applications. To d...
Shape memory alloys (SMAs) have been extensively investigated because of their unique shape memory b...
This thesis has reviewed the development and the current status in the research field of copper-base...
This electronic version was submitted by the student author. The certified thesis is available in th...
The microstructure, mechanical behaviour and damping properties of Cu–18Zn–7Al–xNi alloys (where x =...
This study explores the superelastic behavior of a recently developed Ni45.3Ti29.7Hf20Pd5 alloy that...
Shape memory alloys (SMAs) with double martensitic transitions are potential candidates for highly e...