Behavior of Metallic and Composite Structures (Second Volume)
Sadowski, Tomasz
Behavior of Metallic and Composite Structures (Second Volume) - Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2021 - 1 electronic resource (325 p.)
Open Access
Various types of metallic and composite structures are used in modern engineering practice. For aerospace, car industry, and civil engineering applications, the most important are thin-walled structures made of di erent types of metallic alloys, brous composites, laminates, and multifunctional materials with a more complicated geometry of reinforcement including nanoparticles or nano bres. The current applications in modern engineering require analysis of structures of various properties, shapes, and sizes (e.g., aircraft wings) including structural hybrid joints, subjected to di erent types of loadings, including quasi-static, dynamic, cyclic, thermal, impact, penetration, etc.The advanced metallic and composite structures should satisfy multiple structural functions during operating conditions. Structural functions include mechanical properties such as strength, sti ness, damage resistance, fracture toughness, and damping. Non-structural functions include electrical and thermal conductivities, sensing, actuation, energy harvesting, self-healing capability, electromagnetic shielding, etc.The aim of this SI is to understand the basic principles of damage growth and fracture processes in advanced metallic and composite structures that also include structural joints. Presently, it is widely recognized that important macroscopic properties, such as macroscopic sti ness and strength, are governed by processes that occur at one to several scales below the level of observation. A thorough understanding of how these processes influence the reduction of sti ffness and strength forms the key to the design of improved innovative structural elements and the analysis of existing ones.
Creative Commons
English
books978-3-0365-1491-8 9783036514925 9783036514918
10.3390/books978-3-0365-1491-8 doi
Technology: general issues
steel-concrete composite bridge I-shaped beam concrete creep temperature prediction experiment through-beam joint concrete filled steel tube (CFST) columns reinforced concrete (RC) axial compressive behaviour steel mesh local compression confined concrete height factor curved steel-concrete composite box beam two-node finite beam element with 26 DOFs long-term behavior age-adjusted effective modulus method C-section TH-section distortional mode medium length interactive buckling compression Koiter's theory FEM dynamic pulse buckling composite stanchion FE analysis nonlinear analysis crashworthiness modulus of elasticity pine wood wood defects knots laboratory tests beams glued laminated timber ceramic-matrix composites (CMCs) minicomposite tensile damage fracture timber natural composite Kolsky method deformation diagrams wood species energy absorption wood model verification nonlinear stability square plate shear forces components of transverse forces in bending membrane components of transverse forces 4 methods (CPT, FSDT, S-FSDT, FEM) connection test bolt steel plate moisture content failure AlCrN arc current structure hardness adhesion wear turbine jet engine material tests ember-resistant alloys wood cohesive law digital image correlation fracture mechanics mixed mode I+II loading dual adhesive single lap joints numerical modeling artificial neural networks sandwich panels with corrugated channel core 3D-printed sandwich bending response mechanism maps geometrical optimization dislocation-boundary interaction dislocation-interface interaction deformation twin-boundary interaction size effect boundary structure boundary strengthening characterization techniques adhesive joint adhesive bond strength adhesive layer thickness
Behavior of Metallic and Composite Structures (Second Volume) - Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2021 - 1 electronic resource (325 p.)
Open Access
Various types of metallic and composite structures are used in modern engineering practice. For aerospace, car industry, and civil engineering applications, the most important are thin-walled structures made of di erent types of metallic alloys, brous composites, laminates, and multifunctional materials with a more complicated geometry of reinforcement including nanoparticles or nano bres. The current applications in modern engineering require analysis of structures of various properties, shapes, and sizes (e.g., aircraft wings) including structural hybrid joints, subjected to di erent types of loadings, including quasi-static, dynamic, cyclic, thermal, impact, penetration, etc.The advanced metallic and composite structures should satisfy multiple structural functions during operating conditions. Structural functions include mechanical properties such as strength, sti ness, damage resistance, fracture toughness, and damping. Non-structural functions include electrical and thermal conductivities, sensing, actuation, energy harvesting, self-healing capability, electromagnetic shielding, etc.The aim of this SI is to understand the basic principles of damage growth and fracture processes in advanced metallic and composite structures that also include structural joints. Presently, it is widely recognized that important macroscopic properties, such as macroscopic sti ness and strength, are governed by processes that occur at one to several scales below the level of observation. A thorough understanding of how these processes influence the reduction of sti ffness and strength forms the key to the design of improved innovative structural elements and the analysis of existing ones.
Creative Commons
English
books978-3-0365-1491-8 9783036514925 9783036514918
10.3390/books978-3-0365-1491-8 doi
Technology: general issues
steel-concrete composite bridge I-shaped beam concrete creep temperature prediction experiment through-beam joint concrete filled steel tube (CFST) columns reinforced concrete (RC) axial compressive behaviour steel mesh local compression confined concrete height factor curved steel-concrete composite box beam two-node finite beam element with 26 DOFs long-term behavior age-adjusted effective modulus method C-section TH-section distortional mode medium length interactive buckling compression Koiter's theory FEM dynamic pulse buckling composite stanchion FE analysis nonlinear analysis crashworthiness modulus of elasticity pine wood wood defects knots laboratory tests beams glued laminated timber ceramic-matrix composites (CMCs) minicomposite tensile damage fracture timber natural composite Kolsky method deformation diagrams wood species energy absorption wood model verification nonlinear stability square plate shear forces components of transverse forces in bending membrane components of transverse forces 4 methods (CPT, FSDT, S-FSDT, FEM) connection test bolt steel plate moisture content failure AlCrN arc current structure hardness adhesion wear turbine jet engine material tests ember-resistant alloys wood cohesive law digital image correlation fracture mechanics mixed mode I+II loading dual adhesive single lap joints numerical modeling artificial neural networks sandwich panels with corrugated channel core 3D-printed sandwich bending response mechanism maps geometrical optimization dislocation-boundary interaction dislocation-interface interaction deformation twin-boundary interaction size effect boundary structure boundary strengthening characterization techniques adhesive joint adhesive bond strength adhesive layer thickness