2022
DOI: 10.3390/met12081289
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Design and Development of High-Strength and Ductile Ternary and Multicomponent Eutectoid Cu-Based Shape Memory Alloys: Problems and Perspectives

Abstract: An overview is presented on the structural and phase transformations and physical and mechanical properties of those multicomponent copper-based shape memory alloys which demonstrate attractive commercial potential due to their low cost, good shape memory characteristics, ease of fabrication, and excellent heat and electrical conductivity. However, their applications are very limited due to brittleness, reduced thermal stability, and mechanical strength—properties which are closely related to the microstructur… Show more

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Cited by 16 publications
(10 citation statements)
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“…Figure 8 shows the resulting values of the yield strength variation obtained from the evaluated compression tests, considering the 0.2% offset of deformation. In this plot, it can be observed that the yield strength value increases proportionally with the aluminum content [35]. For the as-casting samples, the following values were obtained, AB ≈ 26 MPa, AT5 ≈ 124 MPa, and AT10 ≈ 226 MPa, the former value representing a maximum increment of 5 times more than that of the unalloyed sample.…”
Section: Yield Stress Evaluationmentioning
confidence: 78%
“…Figure 8 shows the resulting values of the yield strength variation obtained from the evaluated compression tests, considering the 0.2% offset of deformation. In this plot, it can be observed that the yield strength value increases proportionally with the aluminum content [35]. For the as-casting samples, the following values were obtained, AB ≈ 26 MPa, AT5 ≈ 124 MPa, and AT10 ≈ 226 MPa, the former value representing a maximum increment of 5 times more than that of the unalloyed sample.…”
Section: Yield Stress Evaluationmentioning
confidence: 78%
“…The term on the left side of equation (1) was found as the slope value from the linear fitting of ln(Φ/T m 2 ) versus 1000/T m plot (given in figure 5) drawn for the CuAlV alloy. By substituting the determined slope value in the left side term in equation (1), the E a activation energy of CuAlV alloy was found as 125.54 kJmol −1 .…”
Section: Resultsmentioning
confidence: 99%
“…In recent years, Cu-based shape memory alloys (SMAs) [1][2][3][4], the second important SMA group in the class of smart materials family after the superior NiTi SMAs [5][6][7], were successfully utilized as thin film nanolayers of top Schottky metal contact electrodes (which were aimed to have a dynamic electro-mechanical martensite nanostructure based shape memory effect function, good electrical conductivity, and new metal work function values different than those of usual elemental metals) in the fabrication of some new high-performance silicon photodiodes [8][9][10][11][12][13][14][15][16] which can be also regarded as micro/nano M/NEMSs [17][18][19] type new devices, actuators or sensors with photonic features.…”
Section: Introductionmentioning
confidence: 99%
“…Therefore, Cu-based SMAs have attracted attention not only as a low-cost alternative to the mechanical applications of nitinol but also for other applications with their superior electrical and thermal conductivity and the possibility of increasing resistance [6,7]. In Cu-based alloys, the shape memory effect is strongly dependent on thermal treatments, mechanical effects, and element ratios in the structure and production methods [8][9][10][11][12][13]. Another property of Cu-based SMAs is superelasticity, which allows for high elastic deformations of up to 14%, making them suitable for storage and dissipation of mechanical energy [1,14,15].…”
Section: Introductionmentioning
confidence: 99%