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Severe Plastic Deformation and Thermomechanical Processing: Nanostructuring and Properties
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Severe plastic deformation (SPD) is a very attractive research field for metallic materials because it provides new possibilities for manufacturing nanostructured materials in large quantities and allows microstructural design on different hierarchical levels. The papers included in this issue address the following topics: novel SPD processes as well as recent advancements in established processing methods, microstructure evolution and grain refinement in single- and multi-phase alloys as well as composites, strategies to enhance the microstructure stability at elevated temperatures, mechanically driven phase transformations, surface nanostructuring, gradient and multilayered materials, and mechanical and physical properties of SPD-processed materials.
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Keywords
- 304L austenitic stainless steel
- Al2Ca phase
- aluminium copper-clad rod
- CALPHAD
- Cell Adhesion
- cell proliferation
- Copper
- Corrosion
- cryogenic milling
- cryogenic temperature
- deformation tests
- differential scanning calorimetry
- ECAP
- effective electrical conductivity
- equal channel angular pressing
- Equal-channel angular pressing
- functionally graded materials (FGM)
- gradient structure
- hardness
- hardness distribution
- high energy synchrotron X-ray diffraction
- high pressure torsion
- high pressure torsion extrusion
- high strength
- high-pressure torsion
- high-temperature XRD
- History of engineering & technology
- human mesenchymal stem cells culture
- Hysteresis
- intermetallic precipitates
- magnesium
- Magnetic properties
- magneto-resistance
- Mechanical properties
- metastable β-Ti alloys
- Mg alloy
- Mg-3.7Al-1.8Ca-0.4Mn alloy
- Mg-9Li duplex alloy
- microstructural and mechanical stability
- microstructural characterization
- Microstructure
- n/a
- phase composition
- phase diagram
- powder metallurgy
- refinement
- Rolling
- rotating–bending fatigue
- schmid factor
- Severe plastic deformation
- severe plastic deformation (SPD)
- spark plasma sintering
- surface mechanical attrition treatment (SMAT)
- Technology, engineering, agriculture
- Technology: general issues
- tensile properties
- tension–compression fatigue
- Texture
- thermal cycling
- TiNi alloy
- titanium molybdenum alloys
- titanium niobium alloys
- Ti–Fe
- ultrafine-grained structure
- ultrasonic shot peening (USP)
- vacancy agglomerates
- α phase precipitation
- β titanium alloys
Links
DOI: 10.3390/books978-3-03943-688-0Editions