01060nam0 2200277 450 00001934420081117093916.00-7204-2350-320081117d1977----km-y0itay50------baengNLy-------001yyConstruction of integration formulas for initial value problemsP. J. van der HouwenAmsterdam [etc.]North-Holland1977XI, 269 p.23 cmNorth-Holland series in applied mathematics and mechanics192001North-Holland series in applied mathematics and mechanicsConstruction of integration formulas for initial value problems34054Integrazione numerica515.3520Equazioni differenzialiHouwen,Pieter Jacobus : van der632361ITUNIPARTHENOPE20081030RICAUNIMARC000019344M 515.35/11M 597DSA2008Construction of integration formulas for initial value problems34054UNIPARTHENOPE07938nam 2202305z- 450 991055747460332120231214133219.0(CKB)5400000000043052(oapen)https://directory.doabooks.org/handle/20.500.12854/68667(EXLCZ)99540000000004305220202105d2020 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierFatigue and Fracture of Non-metallic Materials and StructuresBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20201 electronic resource (586 p.)3-03928-778-8 3-03928-779-6 The 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.History of engineering & technologybicsscEthylene-propylene diene monomer rubber EPDMgrommetphysical propertiesoptimization of shape designreliability of rocksfatigue loadstrain energyred sandstonedistribution of strain energyindicesmulti-scale simulationfatigue loadingroad bridge decksstagnant waterfracture toughnessblast furnace slagparticle sizecompressive strengthconcreteconcrete crackingcrack patternscarbon fiber-reinforced polymers-CFRPRC strengthening (in bending and shear)RC beamssoft materialspolymersstrain ratedefect tolerancedigital image correlationstress concentratorsnotch bluntinglightning strikecomposite reinforced panelblow-off impulseelectric-thermal couplingboundary effectsize effecttensile strengthphysical modelling testrock structurefracturedeformationminingneutral axisself-healingsuccessive strain gaugeflexural testbridge deckspseudo-cracking methoddata assimilationtriaxial compression testsandstonerock mechanicsrock fractureenergy evolutionrock-like materialcrack propagationdiscrete elementstrain rate tensorvelocity fieldjointed rockuniaxial tension loadingnumerical analysisdiscrete element methodstrata structural behaviornumerical simulationtension weakeningfracturesgoaf consolidationfatigue lifemodified asphalt mixturefour-point bending beam fatigue testtwo-point trapezoidal beam fatigue testoverlay testerembedmentshale rockproppant packfracture widthfly ashfinenessfracture energycritical stress intensity factorassessmentbridge evaluationcompressive membrane actionconcrete bridgesfatiguefatigue assessmentlive loadsprestressed concretepunching shearscale modelCFRPLow Velocity ImpactsCohesive Zone Model (CZM)Finite Element Analysis (FEA)VUMATinter-laminar damageintra-laminar damagechemical groutingflowing waterwater plugging ratejoint roughness coefficientdamage modelmode-II microcracksthermodynamicsreinforced concrete beamimpact and quasi-static loadingretrofittingmineral grain shapeparticle flow codeuniaxial compression simulationrock mechanical propertymesostructurefinite element analysiscohesive zone modelhigh performance concretefibre-reinforced high performance concretecompressive stresscompressive modulus of elasticitymaximum compressive straintensionpressure-tension apparatusnondestructive testingultrasonic pulse velocityABAQUS FEAhigh-temperature wedge splitting testfracture parametersreducing conditioncarbon-containing refractoriesstrain-softeningfailure probabilitydiamond compositematerial failure characteristicsreliabilityrock cutting pickscivil engineeringfiber-reinforced composite laminatemulti-directional laminatedelaminationelastic interfaceenergy release ratemixed-mode fractureenhanced PG-NEMfunctionally graded material (FGM)stress intensity factor (SIF)modified interaction integralmetallic glassesshear bandsmechanical propertiesfracture mechanismsmall wind turbinestall regulationpitch regulationaeroelastic simulationFatigueFracture mechanicsStructural integrityPolymersCompositesCeramicsConcreteRockSoft matterAdvanced materials.History of engineering & technologySpagnoli Andreaedt1324201Spagnoli AndreaothBOOK9910557474603321Fatigue and Fracture of Non-metallic Materials and Structures3036033UNINA02660nas 2200673-a 450 991013323850332120240915213022.0(DE-599)ZDB2220846-X(CKB)110978977970104(CONSER)---09007462-(EXLCZ)9911097897797010420741219a19079999 --- aengtxtrdacontentcrdamediacrrdacarrierAnthropological papers of the American Museum of Natural HistoryNew York, N.Y. Published by order of the trustees1907-New York, N.Y. American Museum of Natural History Library1 online resourceRefereed/Peer-reviewedKislak Ref. Collection: Vol. 62, pt. 1 (1985).DLCSome issues published by Department of Anthropology, American Museum of Natural History. Some issues distributed or co-published by the University of Washington Press or other university presses.Individual issues have distinctive titles.Print version: Anthropological papers of the American Museum of Natural History. 0065-9452 (DLC) 09007462 (OCoLC)1116815 Anthropological papers, American Museum of Natural HistoryAmerican Museum of Natural History, anthropological papersAMERICAN MUSEUM OF NATURAL HISTORY ANTHROPOLOGICAL PAPERSANTHROPOL PAP AM MUSANTHROPOL PAP AM MUS NAT HISTAnthropol. pap. Am. Mus. Nat. Hist.AnthropologyAnthropologyAnthropologieAssociationsAnthropologieanthropologyaatAnthropologyfast(OCoLC)fst00810196AnthropologynliSerial publications.fastCollected works.Serial publications.lcgftAnthropology - PeriodicalsAnthropology.AnthropologyAnthropologieAssociations.Anthropologie.anthropology.Anthropology.Anthropology301American Museum of Natural History.American Museum of Natural History.Department of Anthropology.University of Washington Press.Jay I. Kislak Reference Collection (Library of Congress)JOURNAL9910133238503321exl_impl conversionAnthropological papers of the American Museum of Natural History2238947UNINA01584nam2 22003733i 450 VAN0026111020250124112759.10120230710d1911 |0itac50 bagrcDE|||| |||||1.2curavit curatamque emandavit H. KallenbergEditio alteraLipsiae in aedibus B. G. Teubneri1911228-413 p.19 cmBiblioteca LauriaIT-IT-CE0105 CONSBL.900M.20051.2001VAN002611052001 Herodoti Historiarum libri 9curavit Henr. Rudolph Dietsch210 Lipsiaesumptibus et typis B. G. Teubneri215 volumi19 cm1.2LeipzigVANL001016HerodotusVANV010165162857KallenbergHermannVANV215302Teubner <editore>VANV109204650ErodotoHerodotusVANV074652HérodotHerodotusVANV074653Erodoto di AlicarnassoHerodotusVANV074654HerodotoHerodotusVANV074655Erodoto : d'AlicarnassoHerodotusVANV092729Herodotus, HalicarnassensisHerodotusVANV092730Herodotus, HaliHerodotusVANV092731ITSOL20250131RICABIBLIOTECA DEL DIPARTIMENTO DI GIURISPRUDENZAIT-CE0105VAN00VAN00261110BIBLIOTECA DEL DIPARTIMENTO DI GIURISPRUDENZA00CONS BL.900M.2005 1.2 00BL 3026 20230710 Biblioteca Lauria1.24176718UNICAMPANIA