06231nam 2201597z- 450 991055737380332120231214133020.0(CKB)5400000000042153(oapen)https://directory.doabooks.org/handle/20.500.12854/76367(EXLCZ)99540000000004215320202201d2021 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierAdvanced CompositesFrom Materials Characterization to Structural ApplicationBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20211 electronic resource (378 p.)3-0365-0724-8 3-0365-0725-6 Engineering practice has revealed that innovative technologies’ structural applications require new design concepts related to developing materials with mechanical properties tailored for construction purposes. This would allow the efficient use of engineering materials. The efficiency can be understood in a simplified and heuristic manner as the optimization of performance and the proper combination of structural components, leading to the consumption of the least amount of natural resources. The solution to the eco-optimization problem, based on the adequate characterization of the materials, will enable implementing environmentally friendly engineering principles when the efficient use of advanced materials guarantees the required structural safety. Identifying fundamental relationships between the structure of advanced composites and their physical properties is the focus of this book. The collected articles explore the development of sustainable composites with valorized manufacturability corresponding to Industrial Revolution 4.0 ideology. The publications, amongst others, reveal that the application of nano-particles improves the mechanical performance of composite materials; heat-resistant aluminium composites ensure the safety of overhead power transmission lines; chemical additives can detect the impact of temperature on concrete structures. This book demonstrates that construction materials’ choice has considerable room for improvement from a scientific viewpoint, following heuristic approaches.Advanced CompositesTechnology: general issuesbicsscsteel fiber reinforced concrete (SFRC)slender beamscyclic loadinghysteretic responsefailure modetestsaluminum honeycombdeformation modesshock wavecounter-intuitive behaviorenergy distributionacoustic stealthacoustic coatingpassive sound absorptionactive sound absorptionacoustic characteristics of a submarinefinite element method (FEM)slipgroup studscomposite beamaccelerated bridge constructionsteel fiberin situ amorphous coatinglaser surface remeltingTi-based alloypipeline steeltoughnesscleavage unitcrack propagationmisorientation anglesCFRP laminatemechanically fastened jointsgradient material modeldissimilar welding materialselectron-beam weldingfracture morphologyfracture toughnesscrack deflectionthree-point bending testirreversible thermochromiccement compositemanganese violettemperature indicationheat monitoringcold-formed profileshigh-strength steellocal deformationsbending testload-bearing capacityFRPconcretedamagesynergystrengtheningfinite element analysiscomposite materialtribologyvibrationsresonance zonealuminum alloyscomposite materialsepoxy resinspower cablestransmission linesCFRPNSMbond behaviorstructural behaviormaterial characterizationnumerical modelingreinforced concretesteel fiber-reinforced concrete (SFRC)tension softeningtension stiffeningfinite element (FE) analysissmeared crack modelconstitutive analysisresidual stressesflexural behaviornumerical analysiscyclic testsdirect tension testsresidual stiffnessshearflexureshape memory alloysthermal environmentcomposite laminatessound radiation3D warp interlock fabricwarp yarn interchange ratiomechanical testmechanical characterizationfiber-reinforced compositesoft body armorpara-aramid fibermetal matrix compositesSiCAZ91magnesium alloyCu-Cr systemmechanical alloyingsolid solubility extensionstructural evolutionthermodynamicTechnology: general issuesGribniak Viktoredt1307153Gribniak ViktorothBOOK9910557373803321Advanced Composites3028701UNINA