The aim of this book is to understand and describe the martensitic phase transformation and
the process of martensite platelet reorientation. These two key elements enable the author to …

To explore the possibility of customising the functional behaviour of NiTi shape memory
alloy via controlling texture, binary Ni 55 Ti 45 (wt.%) alloys were manufactured in as cast …

To explore an effective route of customizing the superelasticity (SE) of NiTi shape memory
alloys via modifying the grain structure, binary Ni55Ti45 (wt) alloys were fabricated in as …

Three-dimensional X-ray diffraction microscopy is a fast and nondestructive structural
characterization technique aimed at studies of the individual crystalline elements (grains or …

Microstructural elements in NiTi shape memory alloys (SMAs)–precipitates, phase
boundaries, inclusions, grain boundaries–can be viewed as sources of multiscale constraint …

Deformation heterogeneities at the microstructural length-scale developed in polycrystalline
shape memory alloys (SMAs) during superelastic loading are studied using both …

Functional fatigue—changes to the material response during cyclic loading—is a major
barrier to the cycle lifetime demands of shape memory alloy technologies. Functional fatigue …

Modern X-ray diffraction techniques are now allowing researchers to collect long-desired
experimental verification data sets that are in situ, three-dimensional, on the same length …

Systematic nanohardness measurements on martensite, lower bainite, upper bainite,
granular bainite and ferrite were carried out using nanoindentation technique. The variation …

The superelastic behavior of a Cu–Al–Be alloy was studied in situ during tensile tests
combining two high-energy synchrotron techniques. The initial microstructure was …