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Advanced Crystalline Materials, Mechanical Properties and Innovative Production Systems
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The Special Issue of Crystals entitled “Advanced Crystalline Materials, Mechanical Properties and Innovative Production Systems” has been completed. A total of 17 articles were published. Materials with a crystalline structure are among the most frequently used construction materials. Thanks to this crystalline structure, they are characterized by several beneficial mechanical and exploitation properties. In recent years, many discoveries and advances have been made in materials engineering, which materials scientists are using to create countless materials using prediction and modeling systems, modern technologies, and manufacturing techniques that enable the ability to obtain advanced materials. These materials include high-quality materials, composites, and nanomaterials. For many of the emerging material solutions today, the main focus has been the mechanical properties of the materials. These properties are shaped by the appropriate microstructure composition and obtaining phases with appropriate properties using modern manufacturing techniques and advanced research methods. As a result, crystalline materials are used on a large scale in land and water construction, automotive, aviation, and space engineering, as well as in the power industry. We hope that readers will find interesting articles in this Special Issue Reprint of Crystals.
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Keywords
- 6061 aluminum
- ? phase
- ?? phase
- aging temperature
- Aluminum
- aluminum alloy
- chemical treatment
- Co content
- Computed Tomography
- crack initiation and propagation
- cyclic stress–strain relationship
- Defects
- dephosphorization
- die casting
- dual-phase steel
- electronic
- Environmental media
- Fe-Mn-Ga
- first-principles calculation
- flux-cored wire
- fracture toughness
- friction and wear
- gas tightness requirement
- GH4169 alloy
- grain size distribution
- hardness distribution
- heat treatment
- homogenization treatment
- hot-rolling
- impregnation
- incomplete phase transformation
- Inconel 718 alloy
- ISE
- laser cladding
- life assessment
- low-alloy high-strength steel
- magnetic shape memory alloy
- Manufacture
- Martensitic transformation
- mechanical alloying
- Mechanical properties
- meso parameters
- metallography
- Mg-Gd-Y-Zr alloy
- micro-hardness
- Microstructure
- microstructure stability
- Nb3Sn
- NM500
- Numerical Simulation
- phase transition
- Pins
- plasma nitriding
- plasma-GMAW-P
- polishing
- porosity
- precipitation
- rhenium
- scanning electron microscope
- single crystal
- single crystal superalloy
- single-crystal superalloy
- solid solubility
- solution heat treatment
- Stability
- steelmaking
- strain-controlled
- stress rupture properties
- superconducting characteristics
- temperature field
- tensile
- tensile properties
- the fourth generation
- thermal-mechanical fatigue
- Thermodynamics
- topologically close-packed phases
- UV illumination
- viscoplastic constitutive model
- wear
- wear mechanism
- wedge test
- zinc-coated steel
Links
DOI: 10.3390/books978-3-7258-1156-4Editions