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dc.contributor.editorGribniak, Viktor
dc.date.accessioned2022-01-11T13:30:04Z
dc.date.available2022-01-11T13:30:04Z
dc.date.issued2021
dc.identifierONIX_20220111_9783036507248_103
dc.identifier.urihttps://directory.doabooks.org/handle/20.500.12854/76367
dc.description.abstractEngineering 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.
dc.languageEnglish
dc.subject.classificationbic Book Industry Communication::T Technology, engineering, agriculture::TB Technology: general issues
dc.subject.othersteel fiber reinforced concrete (SFRC)
dc.subject.otherslender beams
dc.subject.othercyclic loading
dc.subject.otherhysteretic response
dc.subject.otherfailure mode
dc.subject.othertests
dc.subject.otheraluminum honeycomb
dc.subject.otherdeformation modes
dc.subject.othershock wave
dc.subject.othercounter-intuitive behavior
dc.subject.otherenergy distribution
dc.subject.otheracoustic stealth
dc.subject.otheracoustic coating
dc.subject.otherpassive sound absorption
dc.subject.otheractive sound absorption
dc.subject.otheracoustic characteristics of a submarine
dc.subject.otherfinite element method (FEM)
dc.subject.otherslip
dc.subject.othergroup studs
dc.subject.othercomposite beam
dc.subject.otheraccelerated bridge construction
dc.subject.othersteel fiber
dc.subject.otherin situ amorphous coating
dc.subject.otherlaser surface remelting
dc.subject.otherTi-based alloy
dc.subject.otherpipeline steel
dc.subject.othertoughness
dc.subject.othercleavage unit
dc.subject.othercrack propagation
dc.subject.othermisorientation angles
dc.subject.otherCFRP laminate
dc.subject.othermechanically fastened joints
dc.subject.othergradient material model
dc.subject.otherdissimilar welding materials
dc.subject.otherelectron-beam welding
dc.subject.otherfracture morphology
dc.subject.otherfracture toughness
dc.subject.othercrack deflection
dc.subject.otherthree-point bending test
dc.subject.otherirreversible thermochromic
dc.subject.othercement composite
dc.subject.othermanganese violet
dc.subject.othertemperature indication
dc.subject.otherheat monitoring
dc.subject.othercold-formed profiles
dc.subject.otherhigh-strength steel
dc.subject.otherlocal deformations
dc.subject.otherbending test
dc.subject.otherload-bearing capacity
dc.subject.otherFRP
dc.subject.otherconcrete
dc.subject.otherdamage
dc.subject.othersynergy
dc.subject.otherstrengthening
dc.subject.otherfinite element analysis
dc.subject.othercomposite material
dc.subject.othertribology
dc.subject.othervibrations
dc.subject.otherresonance zone
dc.subject.otheraluminum alloys
dc.subject.othercomposite materials
dc.subject.otherepoxy resins
dc.subject.otherpower cables
dc.subject.othertransmission lines
dc.subject.otherCFRP
dc.subject.otherNSM
dc.subject.otherbond behavior
dc.subject.otherstructural behavior
dc.subject.othermaterial characterization
dc.subject.othernumerical modeling
dc.subject.otherreinforced concrete
dc.subject.othersteel fiber-reinforced concrete (SFRC)
dc.subject.othertension softening
dc.subject.othertension stiffening
dc.subject.otherfinite element (FE) analysis
dc.subject.othersmeared crack model
dc.subject.otherconstitutive analysis
dc.subject.otherresidual stresses
dc.subject.otherflexural behavior
dc.subject.othernumerical analysis
dc.subject.othercyclic tests
dc.subject.otherdirect tension tests
dc.subject.otherresidual stiffness
dc.subject.othershear
dc.subject.otherflexure
dc.subject.othershape memory alloys
dc.subject.otherthermal environment
dc.subject.othercomposite laminates
dc.subject.othersound radiation
dc.subject.other3D warp interlock fabric
dc.subject.otherwarp yarn interchange ratio
dc.subject.othermechanical test
dc.subject.othermechanical characterization
dc.subject.otherfiber-reinforced composite
dc.subject.othersoft body armor
dc.subject.otherpara-aramid fiber
dc.subject.othermetal matrix composites
dc.subject.otherSiC
dc.subject.otherAZ91
dc.subject.othermagnesium alloy
dc.subject.otherCu-Cr system
dc.subject.othermechanical alloying
dc.subject.othersolid solubility extension
dc.subject.otherstructural evolution
dc.subject.otherthermodynamic
dc.subject.othern/a
dc.titleAdvanced Composites
dc.title.alternativeFrom Materials Characterization to Structural Application
dc.typebook
oapen.identifier.doi10.3390/books978-3-0365-0725-5
oapen.relation.isPublishedBy46cabcaa-dd94-4bfe-87b4-55023c1b36d0
oapen.relation.isbn9783036507248
oapen.relation.isbn9783036507255
oapen.pages378
oapen.place.publicationBasel, Switzerland


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