645 results on '"Tahara, Masaki"'
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2. Machine learning-based prediction of the mechanical properties of β titanium shape memory alloys
3. Comprehensive mapping of mechanical properties and martensitic transformation in Ti–Al–Mo standard ternary system: Integrating literature data and fabricating novel high-Al-content superelastic alloys
4. Exploration of hypereutectoid compositions for achieving and enhancing superelasticity in biomedical Ti–Au–Mo alloys
5. Acoustic emission during approaching the critical point on stress-temperature diagram of martensitic transformation in Ni48Fe20Co5Ga27 (at.%) single crystal
6. Microstructural changes and mechanical property response to aging heat treatment in hypereutectoid Ti–Au–Mo biomedical alloys
7. Coupled magneto-mechanical response of laminate composites comprising a layer of Ni-Mn-Ga microparticles
8. Mechanical properties of various thermomechanical processed Ti-Mo-Al-Zr and pseudo-binary (Ti-Zr)-Mo shape memory alloys for biomedical applications
9. Correspondence of the aging behaviors and the phase constituents of the Ti-Mo-based alloys tailored by the Al and Zr additions
10. Compression cycling and magnetic response of single crystalline Ni-Mn-Ga particles/polymer composite: In-situ and ex-situ study
11. Framework of magnetostrain responsive Ni–Mn–Ga microparticles driving magnetic field induced out-of-plane actuation of laminate composite
12. Aging behaviors of the Al–Cu alloy via ultrasound-promoted thermal treatments
13. Alternations of hardness and tensile properties of the ultrasound-assisted aging treatments on the Al-Mg-Si alloy
14. Shape memory effect and aging behavior of Bi-added Ti–Cr alloys for biomedical applications
15. Effect of aging on isothermal ω/α″ growth and resulting mechanical behaviors of the Ti–Mo–Al high temperature shape memory alloys
16. Aging behavior of Ni-Mn-Ga/silicone particulate composites exhibiting large recoverable magnetostrain
17. Microstructure characteristics and superelastic properties of novel Ti–Cr–Sn superelastic alloys
18. Fabrication and mechanical properties of Bi-added Ti–Cr alloys for biomedical applications
19. Bi-doping engineering of Ni-Mn-Ga polycrystals and resulting grain particles for smart Ni-Mn-Ga/polymer composites
20. Investigation of the martensite variant reorientation of the single crystal Ni-Mn-Ga alloy via training processes and a modification with a silicone rubber
21. Effects of volume fraction between single crystal Ni-Mn-Ga ferromagnetic shape memory alloy and silicone rubber on the martensite variant reorientation
22. Phase constituent and microstructure manipulations via annealing for enhancements of mechanical property and functionalities of Ti–Au–Cr–Ta biomedical shape memory alloys
23. Promoted mechanical properties and functionalities via Ta–tailored Ti–Au–Cr shape memory alloys towards biomedical applications
24. Enhancement of the superelastic behavior of the Ti–Au–Cr–based shape memory alloys via the manipulations of annealing–treatments and Ta additions
25. New dislocation dissociation accompanied by anti-phase shuffling in the α″ martensite phase of a Ti alloy
26. Investigations of mechanical properties and deformation behaviors of the Cr modified Ti–Au shape memory alloys
27. Non-linear elastic behavior of Ni-Fe-Ga(Co) shape memory alloy and Landau-energy landscape reconstruction
28. Large magnetostrains of Ni-Mn-Ga/silicone composite containing system of oriented 5M and 7M martensitic particles
29. Mechanical property enhancement of the Ag–tailored Au–Cu–Al shape memory alloy via the ductile phase toughening
30. Enhancement of mechanical properties and shape memory effect of Ti–Cr–based alloys via Au and Cu modifications
31. Enhancement of the shape memory effect by the introductions of Cr and Sn into the β–Ti alloy towards the biomedical applications
32. Evaluations of mechanical properties and shape memory behaviors of the aging–treated Ti–Au–Mo alloys
33. Effects of Cr and Sn additives on the martensitic transformation and deformation behavior of Ti-Cr-Sn biomedical shape memory alloys
34. Microstructure of α + β dual phase formed from isothermal α″phase via novel decomposition pathway in metastable β-Ti alloy
35. Effect of Cr additions on the phase constituent, mechanical properties, and shape memory effect of near–eutectoid Ti–4Au towards the biomaterial applications
36. Influence of the precipitates on the shape memory effect and superelasticity of the near–eutectoid Ti–Au–Fe alloy towards biomaterial applications
37. Effect of 3d transition metal additions on the phase constituent, mechanical properties, and shape memory effect of near–eutectoid Ti–4Au biomedical alloys
38. A facile fabrication for the magnetorheological elastomer composed of Fe particles and silicone rubber matrix
39. Compression cycling and magnetic response of single crystalline Ni-Mn-Ga particles/polymer composite: in-situ and ex-situ study
40. A Review of Investigations on Microstructure and Mechanical Properties of the Present Achievements of the Ti-Au-based Shape Memory Alloys
41. Effect of Sn and Zr content on superelastic properties of Ti-Mo-Sn-Zr biomedical alloys
42. Mechanical Properties Enhancement of Biomedical Au-Cu-Al Shape Memory Alloys by Phase Manipulation
43. Effect of Sn and Zr addition on the martensitic transformation behavior of Ti-Mo shape memory alloys
44. Formation process of the incompatible martensite microstructure in a beta-titanium shape memory alloy
45. Investigations of Shape Deformation Behaviors of the Ferromagnetic Ni–Mn–Ga Alloy/Porous Silicone Rubber Composite towards Actuator Applications
46. Effects of 3d Transition Metal Substitutions on the Phase Stability and Mechanical Properties of Ti–5.5Al–11.8[Mo]eq Alloys
47. Mechanical properties enhancement of α-fcc + M dual-phase Au-Cu-Al alloys
48. Bi-Doping Strategy of NiMnGa Alloys and Their Single Crystals for Smart NiMnGa/Polymer Composites Toward Biomedical Application
49. Recent achievements of Ti-Cr based shape memory and superelastic alloys
50. Development of AuTiCo-base Biomedical Superelastic Alloys
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