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This succinct reprint provides students and researchers the latest studies to the world of surface coatings in biomedical applications. This eBook contains one editorial, one review paper, and 10 research papers. The technology covers vapor phase coating, wet chemistry coating, and plasma spray. The research areas focus on antifouling, anti-corrosion, and tissue engineering. This specific and accessible reprint is the ideal example of surface coatings for students in bioengineering and materials science.
Technology: general issues --- zinc --- titanium oxide --- micro-arc oxidation --- antibacterial activity --- osteogenic cell compatibility --- bio-inspiration --- anti-corrosion coating --- salt gland --- mangrove --- one-step preparation --- nickel nanoparticles --- magnetic poly(vinyl alcohol) gels --- Sr–HT–Gahnite --- hydroxyapatite --- atmospheric plasma spray --- nanoindentation --- mechanical properties --- protein identification --- matrix-assisted laser desorption/ionization-time of flight --- proteomics --- quartz crystal microbalance --- self-assembled monolayer --- copper nanoparticles --- silver nanoparticles --- nanostructure --- nanocluster --- antifungal --- antibacterial --- escherichia coli --- candida auris --- bioimplants --- orthopedic --- metallic biomaterials --- degradation --- surface modification --- coatings --- nanomaterials --- icariin --- aspirin --- composite coating --- TiO2 nanotubes --- immunomodulatory effect --- macrophage --- osteoblast activity --- pure magnesium --- ultrasonic micro-arc oxidation --- berberine --- corrosion resistance --- PPy/PDA nanocomposite --- nanowires --- polydopamine --- electrical stimulation --- vapor sublimation --- vapor deposition --- nanoparticle --- anisotropic material --- timed control --- n/a --- Sr-HT-Gahnite
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Corrugated and composite materials can significantly outperform traditional materials. Nowadays, such materials have gained more and more attention and application not only in theoretical, experimental or numerical scientific studies but also in daily industrial problems, which require innovative solutions. The specific geometry of a corrugated layer, or the combination of two or more materials in the structures allows the mechanical properties with specific features favorable for use in a specific engineering problem to be obtained. For example, due to the specific compositions of the corrugated materials, the ratio of the load capacity to the weight of the sections is much higher than that of traditional solid sections. Therefore, such materials should be used when the weight of the structure must be optimized or the structure must have openwork geometry. Among others, the composites can be employed for a variety of purposes, for example, in corrugated boards in the packaging industry; in soft-core sandwich panels, window frames in structural engineering; in wings in commercial, civilian and military aerospace applications; in the vehicle and its equipment devices, including, panels, frames or other interior components; in fans, grating, tanks, ducts and pumps in environmental installations; in electrical engineering in switchgear, motor controls, control system components or circuit breakers; and in many more. This Special Issue “Mechanics of Corrugated and Composite Materials” addresses selected knowledge gaps and aids advance in this area.
Technology: general issues --- History of engineering & technology --- corrugated board --- numerical homogenization --- strain energy equivalence --- finite element method --- plate stiffness properties --- shell structures --- transverse shear --- corrugated cardboard --- edge crush test --- orthotropic elasticity --- digital image correlation --- composites --- sandwich panel --- composite structural insulated panel --- magnesium oxide board --- bimodular material --- experimental mechanics --- computational mechanics --- finite element analysis --- perforation --- creasing --- flexural stiffness --- torsional stiffness --- sandwich panels --- local instability --- strain energy --- wrinkling --- orthotropic core --- box strength estimation --- packaging flaps --- crease line shifting --- compressive stiffness --- corrugated box --- compression strength --- pallet --- unit load --- unit load optimization --- composite sandwich structures --- thin-walled structures --- anisotropic material --- corrugated core --- homogenization approach --- first-order shear deformation theory --- FSDT --- FEM simulation --- design process --- aluminium-timber structures --- laminated veneer lumber (LVL) --- toothed plate --- screwed connection --- shear connection --- push-out test --- honeycomb panels --- starch --- impregnation --- climatic conditions --- strength --- stiffness --- energy absorption --- homogenization method --- lattice materials --- periodic cellular materials --- multiscale mechanics --- aluminium powder --- detonation --- explosive --- combustion --- oxidation --- equation of state --- localizing gradient damage --- gradient activity function --- tension --- concrete cracking --- impact load --- dynamics --- air operation safety --- flying risk --- risk management --- unmanned aerial vehicles --- corrugated board --- numerical homogenization --- strain energy equivalence --- finite element method --- plate stiffness properties --- shell structures --- transverse shear --- corrugated cardboard --- edge crush test --- orthotropic elasticity --- digital image correlation --- composites --- sandwich panel --- composite structural insulated panel --- magnesium oxide board --- bimodular material --- experimental mechanics --- computational mechanics --- finite element analysis --- perforation --- creasing --- flexural stiffness --- torsional stiffness --- sandwich panels --- local instability --- strain energy --- wrinkling --- orthotropic core --- box strength estimation --- packaging flaps --- crease line shifting --- compressive stiffness --- corrugated box --- compression strength --- pallet --- unit load --- unit load optimization --- composite sandwich structures --- thin-walled structures --- anisotropic material --- corrugated core --- homogenization approach --- first-order shear deformation theory --- FSDT --- FEM simulation --- design process --- aluminium-timber structures --- laminated veneer lumber (LVL) --- toothed plate --- screwed connection --- shear connection --- push-out test --- honeycomb panels --- starch --- impregnation --- climatic conditions --- strength --- stiffness --- energy absorption --- homogenization method --- lattice materials --- periodic cellular materials --- multiscale mechanics --- aluminium powder --- detonation --- explosive --- combustion --- oxidation --- equation of state --- localizing gradient damage --- gradient activity function --- tension --- concrete cracking --- impact load --- dynamics --- air operation safety --- flying risk --- risk management --- unmanned aerial vehicles
Choose an application
Corrugated and composite materials can significantly outperform traditional materials. Nowadays, such materials have gained more and more attention and application not only in theoretical, experimental or numerical scientific studies but also in daily industrial problems, which require innovative solutions. The specific geometry of a corrugated layer, or the combination of two or more materials in the structures allows the mechanical properties with specific features favorable for use in a specific engineering problem to be obtained. For example, due to the specific compositions of the corrugated materials, the ratio of the load capacity to the weight of the sections is much higher than that of traditional solid sections. Therefore, such materials should be used when the weight of the structure must be optimized or the structure must have openwork geometry. Among others, the composites can be employed for a variety of purposes, for example, in corrugated boards in the packaging industry; in soft-core sandwich panels, window frames in structural engineering; in wings in commercial, civilian and military aerospace applications; in the vehicle and its equipment devices, including, panels, frames or other interior components; in fans, grating, tanks, ducts and pumps in environmental installations; in electrical engineering in switchgear, motor controls, control system components or circuit breakers; and in many more. This Special Issue “Mechanics of Corrugated and Composite Materials” addresses selected knowledge gaps and aids advance in this area.
corrugated board --- numerical homogenization --- strain energy equivalence --- finite element method --- plate stiffness properties --- shell structures --- transverse shear --- corrugated cardboard --- edge crush test --- orthotropic elasticity --- digital image correlation --- composites --- sandwich panel --- composite structural insulated panel --- magnesium oxide board --- bimodular material --- experimental mechanics --- computational mechanics --- finite element analysis --- perforation --- creasing --- flexural stiffness --- torsional stiffness --- sandwich panels --- local instability --- strain energy --- wrinkling --- orthotropic core --- box strength estimation --- packaging flaps --- crease line shifting --- compressive stiffness --- corrugated box --- compression strength --- pallet --- unit load --- unit load optimization --- composite sandwich structures --- thin-walled structures --- anisotropic material --- corrugated core --- homogenization approach --- first-order shear deformation theory --- FSDT --- FEM simulation --- design process --- aluminium-timber structures --- laminated veneer lumber (LVL) --- toothed plate --- screwed connection --- shear connection --- push-out test --- honeycomb panels --- starch --- impregnation --- climatic conditions --- strength --- stiffness --- energy absorption --- homogenization method --- lattice materials --- periodic cellular materials --- multiscale mechanics --- aluminium powder --- detonation --- explosive --- combustion --- oxidation --- equation of state --- n/a --- localizing gradient damage --- gradient activity function --- tension --- concrete cracking --- impact load --- dynamics --- air operation safety --- flying risk --- risk management --- unmanned aerial vehicles
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