Socha et al., 2002 - Google Patents
Analysis of a thermally induced phase transformation strain state for the TiNi shape memory alloy under a complex stress stateSocha et al., 2002
- Document ID
- 1122241117240762921
- Author
- Socha G
- Dietrich L
- Publication year
- Publication venue
- The Journal of Strain Analysis for Engineering Design
External Links
Snippet
In the paper an analysis of isostatic testing results for the Ti-51.0 at.% Ni shape memory alloy are presented. Tests were performed in a complex stress state, the tubular specimen being loaded by a combination of axial load and torque. After achieving a specified level of …
- 230000001131 transforming 0 title abstract description 108
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| US6622558B2 (en) | Method and sensor for detecting strain using shape memory alloys | |
| Lagoudas et al. | Thermomechanical fatigue of shape memory alloys | |
| Iasnii et al. | Degradation of functional properties of pseudoelastic NiTi alloy under cyclic loading: an experimental study | |
| Zhao et al. | Experimental investigation of the cyclic degradation of the one-way shape memory effect of NiTi alloys | |
| Tabesh et al. | Design of shape memory alloy pipe couplers: modeling and experiments | |
| Socha et al. | Analysis of a thermally induced phase transformation strain state for the TiNi shape memory alloy under a complex stress state | |
| Li et al. | Dynamic tensile behavior and constitutive modeling of TC21 titanium alloy | |
| Kumar et al. | The influence of stress and temperature on the residual strain generated during pseudoelastic cycling of NiTi SMA wires | |
| Cai et al. | A modified parallel constitutive model for elevated temperature flow behavior of Ti-6Al-4V alloy based on multiple regression | |
| Haider et al. | Experimental exploration of post constrained recovery mechanics of NiTi | |
| Benafan et al. | Machined helical springs from NiTiHf shape memory alloy | |
| Panciroli | Influence of electric current on the thermo-mechanical static and fatigue properties of shape memory NiTi wires | |
| Vokoun et al. | Study of the effect of curing treatment in fabrication of SMA/polymer composites on deformational behavior of NiTi–5at.% Cu SMA wires | |
| de Araújo et al. | Estimation of internal stresses in shape memory wires during thermal cycling under constant load: a macromechanical approach | |
| Cinoglu et al. | Inelastic design for type 316L stainless steel at ambient and 600° C under uniaxial loading | |
| Bragov et al. | Dynamic research of shape memory alloys | |
| Zhang et al. | Energy-based analysis of temperature oscillation at the shakedown state in shape memory alloys | |
| Bottani et al. | Grúneisen parameter: measurement of the strain derivatives | |
| Keefe et al. | Torsional behavior of shape memory alloys | |
| Velázquez et al. | A Computational–Experimental Thermomechanical Study of Shape Memory Alloy Microcoils and Its Application to the Design of Actuators | |
| Ghat et al. | Physical Modelling of Ti–6Al–4V Alloy above β Transus at High Temperatures (1010–1150° C) and High Strain Rates Using Garofalo and Hensel–Spittel Laws | |
| Nomura et al. | Stability of shape memory characteristics against cyclic deformation in Ti-Ni sputter-deposited thin films | |
| Huang et al. | Strengthening metals by narrowing grain size distributions in nickel-titanium thin films | |
| Grigoriev et al. | Toughness of Unirradiated Zircaloy Cladding | |
| Padula II et al. | Influence of test procedures on the thermomechanical properties of a 55NiTi shape memory alloy |