Transformation behavior of Ti–Ni–Cu–Mo alloys

Cho, Gyu-Bong; Kim, Tae Yeon; Yu, Chengtao; Liu, Yinong; Nam, Tae-Hyun

doi:10.1016/j.jallcom.2006.02.083

Cited by 15 publications

(1 citation statement)

References 10 publications

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“…Ni 43 Ti 50 Co 7 S100 --6.93 0.278 [4] Ni 44 Ti 50 Fe 6 S100 --6.88 0.277 [19] Ni 47 Ti 50 Fe 3 S98 --6.94 0.278 [4] Ni 48.5 Ti 50 Cr 1.5 S95 --6.94 0.278 [4] Ni 48 Ti 50 Mn 2 S95 --6.94 0.278 [4] Ni 47.5 Ti 50 Fe 2 Mo 0.5 S90 5 52 6.94 0.277 [25] Ni 45 Ti 50 V 5 S80 --6.75 0.273 [4] Ni 46 Ti 50 V 4 S50 --6.80 0.274 [4] Ni 47.6 Ti 46.4 Nb 6 S50 -29 -6.92 0.266 [20] Ni 50 Ti 48 [27] Ni 50 Ti 49 W 1 S28 -12 36 7.02 0.275 [22] Ni 48.3 Ti 51 Mo 0.7 S13 20 -6.91 0.275 [21] Ni 49 Ti 50 Mo 1 10 20 36 6.96 0.276 [21] Ni 45 Ti 50 Pd 5 20 --7.00 0.270 [4] Ni 39.5 Ti 49.5 Cu 10 Cr 1 25 30 14 7.08 0.282 [30] Ni 52 Ti 46.74 Re 1. 26 37 87 55 7.16 0.277 [23] Ni 50 Ti 45 Ta 5 44 76 53 7.05 0.255 [14] Ni 48 Ti 50 W 2 55 70 29 6.92 0.266 [22] Ni 50 Ti 47 Ta 3 58 90 48 7.03 0.264 [14] Ni 30 Ti 50 Cu 20 58 60 6 7.20 0.285 [28] Ni 25 [24] Ni 48 Ti 50 Au 2 75 --7.02 0.268 [13] Ni 29 Ti 51 Pd 20 85 -20 6.94 0.243 [31] Ni 49.5 Ti 40.5 Zr 10 90 170 68 6.97 0.260 [11] Ni 30 Ti 50 Pd 20 90 7.00 0.244 …”

Section: E V /A 6 ¼unclassified

Dependence of Transformation Temperatures of NiTi‐based Shape‐Memory Alloys on the Number and Concentration of Valence Electrons

Zarinejad

Liu

2008

Adv Funct Materials

154

105

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Dependence of transformation temperatures of ternary and quaternary NiTi‐based shape memory alloys on the number (ev/a) and concentration (cv) of valence electrons is investigated. Two distinct trends of transformation temperatures with respect to the number of valence electrons per atom are found depending on whether ev/a = 7 or ev/a ≠ 7. Clear correlations between transformation temperatures and cv exist. Ms and As decrease consistently from 900 to −100 °C, and 950 to −30 °C, respectively, with increasing cv from 0.145 to 0.296. The relationship of electron concentration on the elastic moduli of the NiTi‐based alloys is discussed. The possible influence of the atomic size of alloying elements on transformation hysteresis is introduced.

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