Mechanical Properties of Advanced Metallic Materials

• Format: eBook
• Language: English
• Published: Basel MDPI - Multidisciplinary Digital Publishing Institute 2023
• Subjects: History of engineering and technology; Materials science; Technology: general issues; 2205 duplex stainless steel; 5083/6005A welding joint; A1. dendrite; A1. diffusion; A1. particle pushing; A2. growth from melt; accumulative roll bonding (ARB); aluminized high-energy material; aluminum micron powder; B1. alloys; biomedical applications; characterization; coating adhesion; contact angle; corrosion mechanism; corrosion model; Cu-Al-Ag alloy; current; density; energetic material; fatigue life prediction model; Fe-based alloy; ferritic stainless steel; fracture mechanism; graphite; high-manganese steel; high-speed imaging; hot tensile deformation; hybrid composites; Inconel 718 alloy; laser cladding; laser energy density; laser monitor; laser-based powder bed fusion; low cycle fatigue; martensite; martensitic transformation; mechanical properties; medium-entropy alloy; microhardness; microstructure; microstructure evolution; microwave radiation; molecular dynamics; passive film composition; phase interface; physical vapor deposition; plasma arc cladding technology; potentiodynamic polarization curve; pre-oxidation; precipitate; process optimization; reactive wetting; refractory material; selective laser melting; SEM; shape memory alloy (SMA); structural steel; superelasticity; Taguchi; thermal-mechanical alleviation; Ti alloy; Ti alloys; titanium; titanium alloy; titanium alloys; twin boundary; wear characterization; zirconia; β-phase
• Online Access: Open Access: DOAB: description of the publication; Open Access: DOAB, download the publication

 We thank all contributors of this Special Issue and the editorial staff of Crystals for helping this Special Issue achieve success; we are especially gratefully to the expert reviewers who agreed to review the papers submitted to this Special Issue for their diligence and timely effort. Under joint efforts, finally, this Special Issue published 15 papers, including 1 review paper and 14 original research papers. These published papers are mainly related to the mechanical properties of superelastic alloys, titanium alloys, shape memory alloys, various kinds of steels, medium-entropy alloys, high-temperature alloys, etc. Under the success of this Special Issue, the published papers will promote the development and progress of advanced metallic materials. We sincerely hope these papers can cause the readers to be informative and inspire them to obtain new ideas.