LEADER 06231nam  2201597z- 450 
001 9910557373803321
005 20231214133020.0
035   $a(CKB)5400000000042153
035   $a(oapen)https://directory.doabooks.org/handle/20.500.12854/76367
035   $a(EXLCZ)995400000000042153
100   $a20202201d2021      |y             0
101 0 $aeng
135   $aurmn|---annan
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 10$aAdvanced Composites$eFrom Materials Characterization to Structural Application
210   $aBasel, Switzerland$cMDPI - Multidisciplinary Digital Publishing Institute$d2021
215   $a1 electronic resource (378 p.)
311   $a3-0365-0724-8 
311   $a3-0365-0725-6 
330   $aEngineering 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.
517   $aAdvanced Composites
606   $aTechnology: general issues$2bicssc
610   $asteel fiber reinforced concrete (SFRC)
610   $aslender beams
610   $acyclic loading
610   $ahysteretic response
610   $afailure mode
610   $atests
610   $aaluminum honeycomb
610   $adeformation modes
610   $ashock wave
610   $acounter-intuitive behavior
610   $aenergy distribution
610   $aacoustic stealth
610   $aacoustic coating
610   $apassive sound absorption
610   $aactive sound absorption
610   $aacoustic characteristics of a submarine
610   $afinite element method (FEM)
610   $aslip
610   $agroup studs
610   $acomposite beam
610   $aaccelerated bridge construction
610   $asteel fiber
610   $ain situ amorphous coating
610   $alaser surface remelting
610   $aTi-based alloy
610   $apipeline steel
610   $atoughness
610   $acleavage unit
610   $acrack propagation
610   $amisorientation angles
610   $aCFRP laminate
610   $amechanically fastened joints
610   $agradient material model
610   $adissimilar welding materials
610   $aelectron-beam welding
610   $afracture morphology
610   $afracture toughness
610   $acrack deflection
610   $athree-point bending test
610   $airreversible thermochromic
610   $acement composite
610   $amanganese violet
610   $atemperature indication
610   $aheat monitoring
610   $acold-formed profiles
610   $ahigh-strength steel
610   $alocal deformations
610   $abending test
610   $aload-bearing capacity
610   $aFRP
610   $aconcrete
610   $adamage
610   $asynergy
610   $astrengthening
610   $afinite element analysis
610   $acomposite material
610   $atribology
610   $avibrations
610   $aresonance zone
610   $aaluminum alloys
610   $acomposite materials
610   $aepoxy resins
610   $apower cables
610   $atransmission lines
610   $aCFRP
610   $aNSM
610   $abond behavior
610   $astructural behavior
610   $amaterial characterization
610   $anumerical modeling
610   $areinforced concrete
610   $asteel fiber-reinforced concrete (SFRC)
610   $atension softening
610   $atension stiffening
610   $afinite element (FE) analysis
610   $asmeared crack model
610   $aconstitutive analysis
610   $aresidual stresses
610   $aflexural behavior
610   $anumerical analysis
610   $acyclic tests
610   $adirect tension tests
610   $aresidual stiffness
610   $ashear
610   $aflexure
610   $ashape memory alloys
610   $athermal environment
610   $acomposite laminates
610   $asound radiation
610   $a3D warp interlock fabric
610   $awarp yarn interchange ratio
610   $amechanical test
610   $amechanical characterization
610   $afiber-reinforced composite
610   $asoft body armor
610   $apara-aramid fiber
610   $ametal matrix composites
610   $aSiC
610   $aAZ91
610   $amagnesium alloy
610   $aCu-Cr system
610   $amechanical alloying
610   $asolid solubility extension
610   $astructural evolution
610   $athermodynamic
615  7$aTechnology: general issues
700   $aGribniak$b Viktor$4edt$01307153
702   $aGribniak$b Viktor$4oth
906   $aBOOK
912   $a9910557373803321
996   $aAdvanced Composites$93028701
997   $aUNINA