02270nam 2200433 450 991047693880332120230517125115.0(CKB)5470000000566871(NjHacI)995470000000566871(EXLCZ)99547000000056687120230517d2018 uy 0gerur|||||||||||txtrdacontentcrdamediacrrdacarrierArbeit. Wohnen. Computer zur Utopie in der bildenden Kunst und Architektur der DDR in den 1960er Jahren /Oliver Sukrow ; mit einem vorwort von Lucian HölscherHeidelberg :Heidelberg University Publishing (heiUP),2018.1 online resource (520 pages) illustrations3-947732-10-4 Includes bibliographical references.Einleitung -- Der historisch-politische Kontext -- Arbeit -- Wohnen -- Computer -- Resümee -- Quellenverzeichnis -- Literaturverzeichnis -- Abbildungsnaweise -- Abkürzungsverzeichnis.In the 1960s, between the construction of the Berlin Wall (1961) and the change of power (Ulbricht / Honecker 1971), a field of tension between the claim to power and truth of the SED on one side and the subjective obstinacy of the works of art and their creators on the other hand developed. Within it, debates arose regarding the question of the design and appearance of a future, technologically high developed and scientific socialism. Working. Living. Computer tracks down questions about the appearance of the worker of the future, the future of living, and the significance of the computer in the future and analyses these imaginative worlds of socialist dreams and desires in image, architecture, and texts.Arbeit. Wohnen. Computer Utopias in artPhotographyGermanyVisionary architectureUtopias in art.PhotographyVisionary architecture.700.92Sukrow Oliver1985-1262974Hölscher LucianNjHacINjHaclBOOK9910476938803321Arbeit. Wohnen. Computer2955554UNINA06292nam 2201741z- 450 991055761180332120220321(CKB)5400000000045284(oapen)https://directory.doabooks.org/handle/20.500.12854/79587(oapen)doab79587(EXLCZ)99540000000004528420202203d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierHigh Performance ConcreteBaselMDPI - Multidisciplinary Digital Publishing Institute20221 online resource (408 p.)3-0365-3090-8 3-0365-3091-6 The innovations in construction materials that have been made due to the development of different varieties of concrete have led to innovations in structural applications and design. This Special Issue mainly focuses on state-of-the-art research progress in high-performance concrete, including the effect and characteristics of fibers on the properties of high-performance concrete, the CO2 curing efficiency of high-performance cement composites, and the effect of nano materials when used in ultra-high-performance concrete. This Special Issue also contains two comprehensive review articles covering the following topics: the role of supplementary cementitious materials in ultra-high-performance concrete and recent progress in nanomaterials in cement-based materials. Readers working towards conducting research on innovative construction materials will be exposed to findings related to this topic in this Special Issue.History of engineering & technologybicsscTechnology: general issuesbicssc3D tomographic imageABAQUSabrasionagglomerationalkali-activated materialalkali-activatoralternative alkali-activated materialaspect ratioattenuation factorautogenous shrinkagebasalt fibersbio-slimebrittle materialsC-shape magnetic probe testcalcined zeolite sandcalcium sulfoaluminate-based expansive additivecarbon nanotubescasting methodcement-based materialcement-based materialschloride attackCO2 curingcolloidal silicacompressive strengthcompressive stressconcreteconcrete damage plasticity modelconcrete infrastructureconcrete shrinkageCSA expansive additivedensificationdensified silica fumedirect tensile strengthdirect tensile testdynamic compressiondynamic light scatteringenergy absorption capacityfiber contentfiber volume fractionfiber/matrix bondfibersfibre orientation anglefilling slurry matrixflexural testflowabilityGGBFSgraphenegraphene oxideground granulated blast-furnace slagheat treatmenthigh performance concrete (HPC)high performance fiber reinforced concrete (HPFRC)high-performance fiber-reinforced cementitious compositehigh-strength concreteinternal curingmechanical strengthmicroscopic image processingmodulus of elasticityMs (SiO2/Na2O)multi-layer diffusionmulti-point constraintmulti-scale interface connectionmultiscale finite element modelingNa2O contentnano-Al2O3nano-Fe2O3nano-SiO2nano-TiO2nanomaterialsnanosilicanumerical simulationphysical propertiespolypropylene fiber (PP)polyvinyl alcohol fiber (PVA)pore solutionporosityporous cementitious materialspozzolanic reactionpre-wettedrailway sleeperreactive powder concreterepairresidual flexural strengthservice lifesetting timeshrinkageshrinkage stressSIFRCCsimulationsize effectslurry-infiltrated fiber-reinforced cementitious compositesmart infrastructuresmart materialsSplit Hopkinson Pressure Bars (SPHB)splitting tensile strengthstatic bending teststeel fiberstrengthstrength developmentstress-strain relationshipstructural performancesulfate attacksupplementary cementitious materials (SCMs)sustainabilitytemperaturetoughness indexultra high-performance concrete (UHPC)ultra-high performance fiber-reinforced concreteultra-high-performance concreteultra-high-performance steel fiber-reinforced concreteultrahigh-performance concreteultrasonic pulse velocityworkabilityX-ray CT analysiszeta potentialHistory of engineering & technologyTechnology: general issuesPyo Sukhoonedt1303480Pyo SukhoonothBOOK9910557611803321High Performance Concrete3027098UNINA