Part I. Thermomechanical characteristics of shape memory alloys[J] . Kelly A. Tsoi,Jan Schrooten,Rudy Stalmans.Materials Science & Engineering A . 2003 (1)Tsoi, K.A., Schrooten, J., Stalmans, R.: Part I. Thermomechan- ical characteristics of shape memory alloys. Materials Science and ...
SHAPE memory alloysALLOYSSMART materialsSTACKING faults (Crystals)CRYSTAL defectsDamping properties of the inherent and intrinsic internal friction peaks (IFPT + IFI) of Cu-xZn-11Al (x = 7.0, 7.5, 8.0, 8.5, and 9.0 wt. %) shape memory alloys (SMAs) were investigated by using ...
Ti㎞i〤u shape memory alloysarc melt overflowmartensitic transformationtransformation hysteresisrecoverable elongationshape memory characteristicSummary This chapter contains sections titled: Introduction Experimental Results and discussion Conclusions Acknowledgementdoi:10.1002/9781118803592.ch93Yeon﹚ook Kim...
Shape memory alloysTi㎞i〤u alloysMelt spinningAmorphous ribbonmartensitic transformationAlana Pereira RamosPPGCEMat UFCG Aprigio Veloso, 882 Bodocongo 4290 Campina Grande/PB BrazilWalman Benicio de CastroUAEM UFCG〢prigio Veloso, 882 Bodocongo 4290 Campina Grande/PB Brazil...
shape memory alloythermal agingIn this experimental research study, quaternary Cu-based shape memory alloy with a chemical composition of 73.23Cu-21.93Al-3.36Fe1.48Mn (at.%) and a valence electron concentration (e/a) value of 1.487 was produced by arc melting method. After production, the ...
osteolysis on the interface between implants and bone tissues, thus inducing the subsequent mobilization of implants gradually and finally resulting in the failure of bone implants, which imposes restrictions on the applications of porous NiTi shape memory alloys (SMAs) scaffolds for bone tissue ...
Transformation behaviours and shape memory characteristics in Ti-45xNi-5Cu-xMo x=0.3, 0.5, or 1.0 at.- alloys were investigated by means of electrical resistivity measurements, differential scanning calorimetry, X-ray diffraction, thermal cycling tests under constant load, and tensile tests. The ...
Shape memory alloys (SMAs) are being embedded in or externally attached to smart structures because of the large amount of actuation deformation and force ... CL Moore,HA Bruck - 《Smart Materials & Structures》 被引量: 23发表: 2002年 Modeling of a Nonlinear Euler-Bernoulli Flexible Beam Actu...
Phase transformation behavior, the shape memory characteristics and the superelasticity of Ti–Ni–Cu–Mo alloys have been investigated by means of electrical resistivity measurements, X-ray diffraction, thermal cycling tests under constant load and tensile tests. A fully annealed Ti–44.7Ni–5Cu–0.3...
memoryalloys(HTSMAs) havebeenstudiedinrecentyears.suchasTi_Ni-X (x=Hf, Zr,Pt)alloys.Ni—Mn-Xr =Ga.In)basedandNi—freeTi— based (Ti—Ta.Ti—Nb,Ti—Mo)alloys.Ii-,1However. those HTSMAsmentionedaboveexhibittheirbestshapememory propertieswithamartensitetransformationstarttemperature fMs)ofless...