LEADER 07938nam 2202305z- 450 001 9910557474603321 005 20231214133219.0 035 $a(CKB)5400000000043052 035 $a(oapen)https://directory.doabooks.org/handle/20.500.12854/68667 035 $a(EXLCZ)995400000000043052 100 $a20202105d2020 |y 0 101 0 $aeng 135 $aurmn|---annan 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 10$aFatigue and Fracture of Non-metallic Materials and Structures 210 $aBasel, Switzerland$cMDPI - Multidisciplinary Digital Publishing Institute$d2020 215 $a1 electronic resource (586 p.) 311 $a3-03928-778-8 311 $a3-03928-779-6 330 $aThe mechanics of fracture and fatigue have produced a huge body of research work in relation to applications to metal materials and structures. However, a variety of non-metallic materials (e.g., concrete and cementitious composites, rocks, glass, ceramics, bituminous mixtures, composites, polymers, rubber and soft matter, bones and biological materials, and advanced and multifunctional materials) have received relatively less attention, despite their attractiveness for a large spectrum of applications related to the components and structures of diverse engineering branches, applied sciences and architecture, and to the load-carrying systems of biological organisms. This book covers the broad topic of structural integrity of non-metallic materials, considering the modelling, assessment, and reliability of structural elements of any scale. Original contributions from engineers, mechanical materials scientists, computer scientists, physicists, chemists, and mathematicians are presented, applying both experimental and theoretical approaches. 606 $aHistory of engineering & technology$2bicssc 610 $aEthylene-propylene diene monomer rubber EPDM 610 $agrommet 610 $aphysical properties 610 $aoptimization of shape design 610 $areliability of rocks 610 $afatigue load 610 $astrain energy 610 $ared sandstone 610 $adistribution of strain energy 610 $aindices 610 $amulti-scale simulation 610 $afatigue loading 610 $aroad bridge decks 610 $astagnant water 610 $afracture toughness 610 $ablast furnace slag 610 $aparticle size 610 $acompressive strength 610 $aconcrete 610 $aconcrete cracking 610 $acrack patterns 610 $acarbon fiber-reinforced polymers-CFRP 610 $aRC strengthening (in bending and shear) 610 $aRC beams 610 $asoft materials 610 $apolymers 610 $astrain rate 610 $adefect tolerance 610 $adigital image correlation 610 $astress concentrators 610 $anotch blunting 610 $alightning strike 610 $acomposite reinforced panel 610 $ablow-off impulse 610 $aelectric-thermal coupling 610 $aboundary effect 610 $asize effect 610 $atensile strength 610 $aphysical modelling test 610 $arock structure 610 $afracture 610 $adeformation 610 $amining 610 $aneutral axis 610 $aself-healing 610 $asuccessive strain gauge 610 $aflexural test 610 $abridge decks 610 $apseudo-cracking method 610 $adata assimilation 610 $atriaxial compression test 610 $asandstone 610 $arock mechanics 610 $arock fracture 610 $aenergy evolution 610 $arock-like material 610 $acrack propagation 610 $adiscrete element 610 $astrain rate tensor 610 $avelocity field 610 $ajointed rock 610 $auniaxial tension loading 610 $anumerical analysis 610 $adiscrete element method 610 $astrata structural behavior 610 $anumerical simulation 610 $atension weakening 610 $afractures 610 $agoaf consolidation 610 $afatigue life 610 $amodified asphalt mixture 610 $afour-point bending beam fatigue test 610 $atwo-point trapezoidal beam fatigue test 610 $aoverlay tester 610 $aembedment 610 $ashale rock 610 $aproppant pack 610 $afracture width 610 $afly ash 610 $afineness 610 $afracture energy 610 $acritical stress intensity factor 610 $aassessment 610 $abridge evaluation 610 $acompressive membrane action 610 $aconcrete bridges 610 $afatigue 610 $afatigue assessment 610 $alive loads 610 $aprestressed concrete 610 $apunching shear 610 $ascale model 610 $aCFRP 610 $aLow Velocity Impacts 610 $aCohesive Zone Model (CZM) 610 $aFinite Element Analysis (FEA) 610 $aVUMAT 610 $ainter-laminar damage 610 $aintra-laminar damage 610 $achemical grouting 610 $aflowing water 610 $awater plugging rate 610 $ajoint roughness coefficient 610 $adamage model 610 $amode-II microcracks 610 $athermodynamics 610 $areinforced concrete beam 610 $aimpact and quasi-static loading 610 $aretrofitting 610 $amineral grain shape 610 $aparticle flow code 610 $auniaxial compression simulation 610 $arock mechanical property 610 $amesostructure 610 $afinite element analysis 610 $acohesive zone model 610 $ahigh performance concrete 610 $afibre-reinforced high performance concrete 610 $acompressive stress 610 $acompressive modulus of elasticity 610 $amaximum compressive strain 610 $atension 610 $apressure-tension apparatus 610 $anondestructive testing 610 $aultrasonic pulse velocity 610 $aABAQUS FEA 610 $ahigh-temperature wedge splitting test 610 $afracture parameters 610 $areducing condition 610 $acarbon-containing refractories 610 $astrain-softening 610 $afailure probability 610 $adiamond composite 610 $amaterial failure characteristics 610 $areliability 610 $arock cutting picks 610 $acivil engineering 610 $afiber-reinforced composite laminate 610 $amulti-directional laminate 610 $adelamination 610 $aelastic interface 610 $aenergy release rate 610 $amixed-mode fracture 610 $aenhanced PG-NEM 610 $afunctionally graded material (FGM) 610 $astress intensity factor (SIF) 610 $amodified interaction integral 610 $ametallic glasses 610 $ashear bands 610 $amechanical properties 610 $afracture mechanism 610 $asmall wind turbine 610 $astall regulation 610 $apitch regulation 610 $aaeroelastic simulation 610 $aFatigue 610 $aFracture mechanics 610 $aStructural integrity 610 $aPolymers 610 $aComposites 610 $aCeramics 610 $aConcrete 610 $aRock 610 $aSoft matter 610 $aAdvanced materials. 615 7$aHistory of engineering & technology 700 $aSpagnoli$b Andrea$4edt$01324201 702 $aSpagnoli$b Andrea$4oth 906 $aBOOK 912 $a9910557474603321 996 $aFatigue and Fracture of Non-metallic Materials and Structures$93036033 997 $aUNINA