Development and Modification of New or Recycled Materials and Technological Processes toward Sustainable Development

© 2024 by the authors; CC BY-NC-ND license

bottom zinc dross; thermodynamic study; zinc evaporation; inert atmosphere; plastic materials; recycling/recovery; mechanical processing; mechanical properties; electrocatalyst; electrodeposition; NiCoP; water electrolysis; surface reconstruction; rubber; foam; foaming agent; morphology; mechanical properties; water sorption; high temperature sorbents; zeolites; lanthanum oxide; dolomite; cokes; perforated metal materials; PMM technological waste recycling; structural members; sustainable; chromium; electrocoagulation; metal recovery; secondary raw materials; optimization; zeolite; silver nanoclusters; luminescence properties; spectral manipulation; luminescence mechanism; applications; spent portable lithium battery; recycling; pyrometallurgy; hydrometallurgy; zinc-based alloys; microstructure; mechanical properties; hot extrusion; synchrotron data; EDX analysis; oil lubrication conditions; high-temperature tribology; g-C₃N₄ and h-BN; synergistic effect; electric arc furnace dust (EAFD); hydrometallurgy; cementation; zinc; iron; lead; LDHs; coprecipitation; hydrothermal; adsorbent; catalyst; advanced oxidation processes; electrocatalyst; induction hardening; thermal residual deformation; multiobjective optimization; response surface methodology; desirability function; evolutionary computations; genetic algorithm; gas atomization; titanium; recycled feedstock powder; cold spray; additive manufacturing; adobe; mud–straw plaster; ion chromatography; X-ray fluorescence; X-ray diffraction; sorption isotherm; thermogravimetric analysis; differential scanning calorimetry; n/a