Add to ORKGIn situ neutron diffraction was used to investigate the microstructural features of stoichiometric and Ti-rich NiTiPt high-temperature shape memory alloys with target compositions of Ni29Ti50Pt21 and Ni28.5Ti50.5Pt21 (in atomic percent), respectively. The alloys’ isothermal and thermomechanical properties (i.e., moduli, thermal expansion, transformation strains, and dimensional stability) were correlated to the lattice strains, volume-averaged elastic moduli, and textures as determined by neutron diffraction. In addition, the unique aspects of this technique when applied to martensitic transformations in shape memory alloys are highlighted throughout the paper
Shape recovery in shape memory alloys (SMAs) occurs against external stress by means of a reversible...
Martensitic transformations in commercial near equiatomic Ni49.5Ti (at. %) polycrystalline thick wir...
Neutron diffraction measurements of internal elastic strains and texture were performed during uniax...
To explore the possibility of customising the functional behaviour of NiTi shape memory alloy via co...
A stable Ni-rich Ni-29.7Ti-20Hf (at. pct) shape memory alloy, with relatively high transformation te...
A bulk polycrystalline Ni49.9Ti50.1 (at.%) shape memory alloy specimen was shape set while neutron d...
Deformation phenomena in shape memory alloys involve stress-, temperature-induced phase transformati...
In situ neutron diffraction was used to provide insights into martensite variant microstructures dur...
As the name suggests, the shape-memory effect refers to a phenomenon wherein a material when mechani...
We report on in situ neutron diffraction measurements during heating and cooling through the phase t...
A hollow shaft of superelastic Ti-50.8 atomic percent nickel shape memory alloy has been investigate...
The unique ability of shape memory alloys (SMAs) to remember and recover their original shape after ...
Polycrystalline NiTi shape memory alloys have the ability to recover their original, pre-deformed sh...
In-situ deformation of Ni rich NiTi shape memory alloy is characterized using synchrotron diffractio...
In-situ neutron diffraction experiments on polycrystalline shape memory alloys /SMA / transforming i...
Shape recovery in shape memory alloys (SMAs) occurs against external stress by means of a reversible...
Martensitic transformations in commercial near equiatomic Ni49.5Ti (at. %) polycrystalline thick wir...
Neutron diffraction measurements of internal elastic strains and texture were performed during uniax...
To explore the possibility of customising the functional behaviour of NiTi shape memory alloy via co...
A stable Ni-rich Ni-29.7Ti-20Hf (at. pct) shape memory alloy, with relatively high transformation te...
A bulk polycrystalline Ni49.9Ti50.1 (at.%) shape memory alloy specimen was shape set while neutron d...
Deformation phenomena in shape memory alloys involve stress-, temperature-induced phase transformati...
In situ neutron diffraction was used to provide insights into martensite variant microstructures dur...
As the name suggests, the shape-memory effect refers to a phenomenon wherein a material when mechani...
We report on in situ neutron diffraction measurements during heating and cooling through the phase t...
A hollow shaft of superelastic Ti-50.8 atomic percent nickel shape memory alloy has been investigate...
The unique ability of shape memory alloys (SMAs) to remember and recover their original shape after ...
Polycrystalline NiTi shape memory alloys have the ability to recover their original, pre-deformed sh...
In-situ deformation of Ni rich NiTi shape memory alloy is characterized using synchrotron diffractio...
In-situ neutron diffraction experiments on polycrystalline shape memory alloys /SMA / transforming i...
Shape recovery in shape memory alloys (SMAs) occurs against external stress by means of a reversible...
Martensitic transformations in commercial near equiatomic Ni49.5Ti (at. %) polycrystalline thick wir...
Neutron diffraction measurements of internal elastic strains and texture were performed during uniax...