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The problem of solving complex engineering problems has always been a major topic in all industrial fields, such as aerospace, civil and mechanical engineering. The use of numerical methods has increased exponentially in the last few years, due to modern computers in the field of structural mechanics. Moreover, a wide range of numerical methods have been presented in the literature for solving such problems. Structural mechanics problems are dealt with using partial differential systems of equations that might be solved by following the two main classes of methods: Domain-decomposition methods or the so-called finite element methods and mesh-free methods where no decomposition is carried out. Both methodologies discretize a partial differential system into a set of algebraic equations that can be easily solved by computer implementation. The aim of the present Special Issue is to present a collection of recent works on these themes and a comparison of the novel advancements of both worlds in structural mechanics applications.

History of engineering & technology --- direction field --- tensor line --- principal stress --- tailored fiber placement --- heat conduction --- finite elements --- space-time --- elastodynamics --- mesh adaptation --- non-circular deep tunnel --- complex variables --- conformal mapping --- elasticity --- numerical simulation --- numerical modeling --- joint static strength --- finite element method --- parametric investigation --- reinforced joint (collar and doubler plate) --- nonlocal elasticity theory --- Galerkin weighted residual FEM --- silicon carbide nanowire --- silver nanowire --- gold nanowire --- biostructure --- rostrum --- paddlefish --- Polyodon spathula --- maximum-flow/minimum-cut --- stress patterns --- finite element modelling --- laminated composite plates --- non-uniform mechanical properties --- panel method --- marine propeller --- noise --- FW-H equations --- experimental test --- continuation methods --- bifurcations --- limit points --- cohesive elements --- functionally graded materials --- porosity distributions --- first-order shear deformation theory --- shear correction factor --- higher-order shear deformation theory --- equivalent single-layer approach --- n/a

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Studies on the corrosion and degradation of materials play a decisive role in the novel design and development of corrosion-resistant materials, the selection of materials used in harsh environments in designed lifespans, the invention of corrosion control methods and procedures (e.g., coatings, inhibitors), and the safety assessment and prediction of materials (i.e., modelling). These studies cover a wide range of research fields, including the calculation of thermodynamics, the characterization of microstructures, the investigation of mechanical and corrosion properties, the creation of corrosion coatings or inhibitors, and the establishment of corrosion modelling. This Special Issue is devoted to these types of studies, which facilitate the understanding of the corrosion fundamentals of materials in service, the development of corrosion coatings or methods, improving their durability, and eventually decreasing corrosion loss.

Technology: general issues --- Chemical engineering --- AC-HVAF --- FeB --- HEAs --- coating --- corrosion --- liquid zinc --- cuprous oxide nanochains --- thermal decomposition --- nanofluids --- photo-thermal conversion performance --- molecular dynamics --- binding energy --- crystallization prevention --- flocking for resisting blockage --- drainage pipe --- mechanochemical activation --- coal-gasification slag --- particle characteristics --- cementitious material --- reactivity --- traffic engineering --- damage identification --- deflection influence line --- continuous beam bridge --- multi-span bridges --- structural damage --- anti-blocking of flocking drainage pipe --- drainage pipe blockage by crystals --- mechanism --- mathematical modeling --- tunnel --- soft rock --- strain hardening/softening --- bearing capacity of footing --- numerical solution --- effect of intermediate principal stress --- CoCrFeNiSiMoW --- medium-entropy alloy coatings --- microstructure --- wear --- salt freezing --- erosion --- freeze thaw cycle --- concrete --- durability --- numerical simulation --- high-nitrogen austenitic stainless steel --- friction coefficient --- high temperature --- loess calcareous nodules --- heavy-metal ions --- single adsorption --- adsorption rate --- grey quality gain-loss --- engineering specifications --- process capability --- crystallization and clogging in pipe --- flow velocity --- pipe diameter --- pipe material --- friction stir welding --- aluminum and steel dissimilar metals butt --- high rotational speed --- ultra-high rotational speed --- intermetallic compound --- magnesium alloy --- composite coating --- structural characterization --- mechanical properties --- bioactivity --- antibacterial activity --- biocompatibility --- Feixianguan Formation --- underdetermined system --- curve reconstruction --- circulating neural network --- old well review --- weathered sand --- freeze–thaw cycles --- damage law --- microscopic characteristics --- deterioration mechanism --- flange shaft --- fatigue failure --- fracture mechanics --- stress intensity factor --- crack propagation --- bridge structure --- mode --- frequency --- displacement curve --- Z3CN20.09M --- corrosion fatigue --- fatigue life --- high temperature water --- SnO2-Sb2Ox --- sol-enhanced electrodeposition --- organic degradation --- micro-arc oxidation (MAO) --- SiO2 nanoparticles --- corrosion resistance --- wear property --- magnesium–lithium alloy --- localized corrosion --- corrosion product film --- annular channel angular extrusion --- predeformation --- 2A12 aluminum alloy --- heat treatment --- uniform mechanical properties --- Q345 steel --- hot-dipping aluminum-silicon --- annealing --- FeAl phase --- Al2O3 --- dissimilar metal cladding --- pressure vessel pipe–nozzle --- micro-hardness --- sweet cherry --- edible coating --- quality --- antioxidant enzymatic activities --- stainless steel --- titanium --- crevice corrosion --- multiphysics --- ring narrow groove --- mask electrochemical machining --- numerical simulation of the multiple physical fields --- diffusion barrier --- Cu interconnect --- self-formed --- Cu(Re) alloy --- subgrade engineering --- coarse-grained soil --- step cyclic loading --- dynamic triaxial test --- hysteresis curve --- n/a --- freeze-thaw cycles --- magnesium-lithium alloy --- pressure vessel pipe-nozzle

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

Studies on the corrosion and degradation of materials play a decisive role in the novel design and development of corrosion-resistant materials, the selection of materials used in harsh environments in designed lifespans, the invention of corrosion control methods and procedures (e.g., coatings, inhibitors), and the safety assessment and prediction of materials (i.e., modelling). These studies cover a wide range of research fields, including the calculation of thermodynamics, the characterization of microstructures, the investigation of mechanical and corrosion properties, the creation of corrosion coatings or inhibitors, and the establishment of corrosion modelling. This Special Issue is devoted to these types of studies, which facilitate the understanding of the corrosion fundamentals of materials in service, the development of corrosion coatings or methods, improving their durability, and eventually decreasing corrosion loss.

Technology: general issues --- Chemical engineering --- AC-HVAF --- FeB --- HEAs --- coating --- corrosion --- liquid zinc --- cuprous oxide nanochains --- thermal decomposition --- nanofluids --- photo-thermal conversion performance --- molecular dynamics --- binding energy --- crystallization prevention --- flocking for resisting blockage --- drainage pipe --- mechanochemical activation --- coal-gasification slag --- particle characteristics --- cementitious material --- reactivity --- traffic engineering --- damage identification --- deflection influence line --- continuous beam bridge --- multi-span bridges --- structural damage --- anti-blocking of flocking drainage pipe --- drainage pipe blockage by crystals --- mechanism --- mathematical modeling --- tunnel --- soft rock --- strain hardening/softening --- bearing capacity of footing --- numerical solution --- effect of intermediate principal stress --- CoCrFeNiSiMoW --- medium-entropy alloy coatings --- microstructure --- wear --- salt freezing --- erosion --- freeze thaw cycle --- concrete --- durability --- numerical simulation --- high-nitrogen austenitic stainless steel --- friction coefficient --- high temperature --- loess calcareous nodules --- heavy-metal ions --- single adsorption --- adsorption rate --- grey quality gain-loss --- engineering specifications --- process capability --- crystallization and clogging in pipe --- flow velocity --- pipe diameter --- pipe material --- friction stir welding --- aluminum and steel dissimilar metals butt --- high rotational speed --- ultra-high rotational speed --- intermetallic compound --- magnesium alloy --- composite coating --- structural characterization --- mechanical properties --- bioactivity --- antibacterial activity --- biocompatibility --- Feixianguan Formation --- underdetermined system --- curve reconstruction --- circulating neural network --- old well review --- weathered sand --- freeze-thaw cycles --- damage law --- microscopic characteristics --- deterioration mechanism --- flange shaft --- fatigue failure --- fracture mechanics --- stress intensity factor --- crack propagation --- bridge structure --- mode --- frequency --- displacement curve --- Z3CN20.09M --- corrosion fatigue --- fatigue life --- high temperature water --- SnO2-Sb2Ox --- sol-enhanced electrodeposition --- organic degradation --- micro-arc oxidation (MAO) --- SiO2 nanoparticles --- corrosion resistance --- wear property --- magnesium-lithium alloy --- localized corrosion --- corrosion product film --- annular channel angular extrusion --- predeformation --- 2A12 aluminum alloy --- heat treatment --- uniform mechanical properties --- Q345 steel --- hot-dipping aluminum-silicon --- annealing --- FeAl phase --- Al2O3 --- dissimilar metal cladding --- pressure vessel pipe-nozzle --- micro-hardness --- sweet cherry --- edible coating --- quality --- antioxidant enzymatic activities --- stainless steel --- titanium --- crevice corrosion --- multiphysics --- ring narrow groove --- mask electrochemical machining --- numerical simulation of the multiple physical fields --- diffusion barrier --- Cu interconnect --- self-formed --- Cu(Re) alloy --- subgrade engineering --- coarse-grained soil --- step cyclic loading --- dynamic triaxial test --- hysteresis curve --- AC-HVAF --- FeB --- HEAs --- coating --- corrosion --- liquid zinc --- cuprous oxide nanochains --- thermal decomposition --- nanofluids --- photo-thermal conversion performance --- molecular dynamics --- binding energy --- crystallization prevention --- flocking for resisting blockage --- drainage pipe --- mechanochemical activation --- coal-gasification slag --- particle characteristics --- cementitious material --- reactivity --- traffic engineering --- damage identification --- deflection influence line --- continuous beam bridge --- multi-span bridges --- structural damage --- anti-blocking of flocking drainage pipe --- drainage pipe blockage by crystals --- mechanism --- mathematical modeling --- tunnel --- soft rock --- strain hardening/softening --- bearing capacity of footing --- numerical solution --- effect of intermediate principal stress --- CoCrFeNiSiMoW --- medium-entropy alloy coatings --- microstructure --- wear --- salt freezing --- erosion --- freeze thaw cycle --- concrete --- durability --- numerical simulation --- high-nitrogen austenitic stainless steel --- friction coefficient --- high temperature --- loess calcareous nodules --- heavy-metal ions --- single adsorption --- adsorption rate --- grey quality gain-loss --- engineering specifications --- process capability --- crystallization and clogging in pipe --- flow velocity --- pipe diameter --- pipe material --- friction stir welding --- aluminum and steel dissimilar metals butt --- high rotational speed --- ultra-high rotational speed --- intermetallic compound --- magnesium alloy --- composite coating --- structural characterization --- mechanical properties --- bioactivity --- antibacterial activity --- biocompatibility --- Feixianguan Formation --- underdetermined system --- curve reconstruction --- circulating neural network --- old well review --- weathered sand --- freeze-thaw cycles --- damage law --- microscopic characteristics --- deterioration mechanism --- flange shaft --- fatigue failure --- fracture mechanics --- stress intensity factor --- crack propagation --- bridge structure --- mode --- frequency --- displacement curve --- Z3CN20.09M --- corrosion fatigue --- fatigue life --- high temperature water --- SnO2-Sb2Ox --- sol-enhanced electrodeposition --- organic degradation --- micro-arc oxidation (MAO) --- SiO2 nanoparticles --- corrosion resistance --- wear property --- magnesium-lithium alloy --- localized corrosion --- corrosion product film --- annular channel angular extrusion --- predeformation --- 2A12 aluminum alloy --- heat treatment --- uniform mechanical properties --- Q345 steel --- hot-dipping aluminum-silicon --- annealing --- FeAl phase --- Al2O3 --- dissimilar metal cladding --- pressure vessel pipe-nozzle --- micro-hardness --- sweet cherry --- edible coating --- quality --- antioxidant enzymatic activities --- stainless steel --- titanium --- crevice corrosion --- multiphysics --- ring narrow groove --- mask electrochemical machining --- numerical simulation of the multiple physical fields --- diffusion barrier --- Cu interconnect --- self-formed --- Cu(Re) alloy --- subgrade engineering --- coarse-grained soil --- step cyclic loading --- dynamic triaxial test --- hysteresis curve