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Light Alloys and High-Temperature Alloys
Lijun Zhang (editor)
2022
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Light alloys and high-temperature alloys are widely used as key engineering materials in both the civil and military industries due to their excellent comprehensive properties and performance. Over recent decades, huge amounts of theoretical and/or experimental efforts have been devoted to this field and great achievements have been made. In this book, entitled "Light Alloys and High-Temperature Alloys", there are 14 research papers contributed by 85 authors at 27 universities/institutes/companies from 9 countries, including China, the USA, the UK, Germany, Spain, Australia, Ukraine, Poland, and Romania. The topics cover different types of light alloys, including Al-, Mg-, and Ti-based ones (also Ti-based metal matrix composites), and high-temperature alloys, including Ni-, Fe-, Nb-, and Ta-based ones. Two new types of alloys, i.e., complex concentrated alloys (CCAs) and phase change materials, are also included. Moreover, in this book, a variety of multi-scale theoretical methods, ranging from first-principles calculations, first-principles molecular dynamic simulations, and Calculation of Phase Diagram (CALPHAD) modeling to crystal plasticity finite element simulations coupled with knowledge graph, as well as experimental techniques, e.g., casting, powder metallurgy, additive manufacturing, etc. are discussed. Consequently, the diverse topics and state-of-the-art theoretical/experimental techniques will attract broad interest from materials researchers worldwide.
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Keywords
- 6082 aluminum alloy
- adiabatic shear bands
- Al alloys
- Al-Mg-Si-Cu alloys
- Al–Zn
- atomic configuration
- Atomic mobility
- calculation of phase diagram (CALPHAD)
- CALPHAD
- complex concentrated alloys (CCAs)
- constitutive equation
- critical raw materials (CRMs)
- Crystal plasticity
- Cu-containing β″
- deformation and fracture
- differential scanning calorimetry
- Diffusion
- diffusion couple
- dual-phase
- elaboration
- electronic structure
- GeTe
- H13 tool steel
- Hcp Mg–Al–Zn–Sn alloys
- high-strain-rate testing
- high-throughput computing
- HitDIC
- Inconel 625
- knowledge graph
- Laves phase
- lightweight multicomponent alloys
- liquid-solid diffusion couple
- Mathematics & science
- Mechanical properties
- Mg-Zn-Al alloy
- Mg–Zn phases
- Microstructure
- microstructure design
- microstructure evolution
- Nb-Sn system
- Nb3Sn
- phase change materials
- phase equilibria
- phase equilibrium
- Physics
- plastic consolidation
- processing map
- Properties
- quasi-static compression
- recrystallization
- recycling
- Reference, information & interdisciplinary subjects
- Research & information: general
- Sb2Te3
- schmid factor
- selective laser melting
- simulation
- split Hopkinson pressure bar
- strain energy
- strontium modification
- Surface modification
- Ta-Cr system
- Ta-V system
- third-generation thermodynamic description
- titanium boride
- titanium carbide
- titanium matrix composite
- unusual force constant
- X-ray thermo-diffraction
- Zn precipitation
- ε phase