Obtaining and Characterization of New Materials, Volume III

© 2022 by the authors; CC BY-NC-ND license

glazing; Hf-ZnO; building; g-value; U-value; glare; thermal comfort; visual comfort; CCT; CRI; hydroxyapatite; nano-crystalline powders; hydrothermal synthesis; mechanical properties; cell viability; cell proliferation; additive manufacturing; lattice structure; 3D printing; research pattern; research trend; scientometric; bibliometric; COVID19; scientific literature review; review; VOSviewer; shear thickening fluids; viscosity; thermal treatment; composite; geopolymer; compressive strength; Fe₂O₃; MgO; road engineering; UV aging; UV absorber; high and low-temperature performance; infrared spectrum; foamed concrete; polypropylene fibrillated fiber; compression; flexural; tensile; porosity; water absorption; laser surface texturing; dimple microtexture; lead-free solder; wettability; intermetallic compound; near-infrared irradiation; silver sulfide; cellulose film; photocatalysis; methylene blue; perylene dye; nanoparticles; quantum dots; cadmium telluride; photoluminescence; time-resolved spectroscopy; exciton; FEA; end effect; EBR; plate bonding; tapering technique; prestressed concrete slab; radioactive wastes; cement; solidification/stabilization (S/S); biochar; waste form; supplementary cementitious materials (SCM); magnesia-based cement; calcium sulphoaluminate cement; calcium aluminate cement; closed-cell foam; drop test; finite element analysis; design parameter; protective packaging; Sn whisker; Sn0.7Cu0.05Ni; IMC interfacial; (Cu,Ni)₆Sn₅; solder joint; annealing; suppression; mitigation; concrete shrinkage; mechanical resistances; carbonation; concrete microstructure; ground granulated blast furnace slag (GGBS); air cooled blast furnace slag (ACBFS); cement concrete roads; self-cleaning cementitious composites; geopolymer; TiO₂ nanoparticles; physical-mechanical performance; microorganism resistance