00907nam0-22003131i-450-99000803942040332120050406110632.00860545377000803942FED01000803942(Aleph)000803942FED0100080394220050406d1988----km-y0itay50------bagerGBy-------001yyCapuanische GrabsteineUntersuchungen zu den Grabsteinen romischer Freigelassener aus CapuaMichael EckertOxfordBAR1988VII, 286 p.ill30 cmBAR international series73620itaEckert,Michael497259ITUNINARICAUNIMARCBK990008039420403321DDR-XIX C 107.102103 ddrDDR21-5561DDRCapuanische Grabsteine755557UNINA06797nam 2201909z- 450 991055752250332120210501(CKB)5400000000044354(oapen)https://directory.doabooks.org/handle/20.500.12854/68698(oapen)doab68698(EXLCZ)99540000000004435420202105d2020 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierDesign of Alloy Metals for Low-Mass StructuresBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20201 online resource (460 p.)3-03936-158-9 3-03936-159-7 Nowadays, 25% of materials used are metals, and this ratio is not expected to decrease, as metals are indispensable for many applications due to their high resistance to temperature. The only handicap of metals is their relatively higher density with respect to composites. Lightening of metallic structures is possible in three ways: (i) employing low density metals, (ii) developing new ones, and (iii) increasing the yield strength of existing high-density metals. The Laboratory of Excellence of the Lorraine University in France, called 'Design of Alloy Metals for Low-Mass Structures', is working to lighten metal via metallurgical means. Two leading research laboratories compose this Laboratory of Excellence within the Lorraine University: the Laboratory of Microstructure Studies and Mechanics of Materials (LEM3), based in Metz, and the Jean Lamour Institute (IJL), located in Nancy. In this Special Issue, they report on some of their major progress in the different fields of metallurgy and mechanics of metallic materials. There are articles in the three major fields of metallurgy: physical, chemical, and mechanical metallurgy. All scales are covered, from atomistic studies to real-scale metallic structures.History of engineering and technologybicssc3D surface mapsacoustic emissionaggregationAl-Cu-Li alloysanalytical modellinganisotropyAPT and TEM characterizationarchitected cellular materialasymmetric ratioaustenite reconstructionback pressurebainitebifurcation theoryclusters precipitationCO2 emissionscollective dislocation dynamicscrack nucleationcrack opening displacementcreepcrystal plasticitycrystallographic texturedeformation twinningdendritic grain sizediffractiondigital image correlationdirect reductiondirectional solidificationdisconnection densitydiscrete green operatordislocationdislocation densitydislocationsdisplacement discontinuityDRIECAPECCIelastic anisotropyelastic propertieselastic/plastic incompatibilitieselasto-visco-plastic self-consistent (EVPSC) schemeelasto-viscoplastic self-consistent scheme (EVPSC)ERNiCrFe-7excess nitrogenfast Fourier transform (FFT)-based methodfatigueFe-Si and Fe-Cr nitrided alloysfinite elementFinite Element (FE) simulationFM52 filler metalgas tungsten arc weldinggrain boundary slidinggrain refinementgrain sizegroove rollingH-activationhardeninghardnessheat and mass transferheterogeneous kineticsHEXRDhigh entropy alloyHPT consolidationin situ experimentsin situ X-ray diffractionindustrial ingotinoculationinternal stressesiron oreironmakingisothermal treatmentlateral extrusion ratiolattice mismatchlattice structureslocalized neckingmagnesiummagnesium powdersmartensitemathematical modelmechanical propertiesmetal matrix compositemicrosegregationmicrostructuremodelingmultiscale finite element methodnanoindentationnickel-based single crystal superalloynon-metallic inclusionsnon-Schmid effectsnumerical homogenizationPPd-10Au alloyphase transformationplastic flow machiningplasticitypolycrystalline β-Tiporous materialsprecipitationQ&amprollingscattered intensityself consistent methodsshaft furnaceshape memory alloysshear compressionsimulated diffraction peakssimulationslip activitysolidificationstatistical analysissteelsteel ladlestrain hardeningstrain heterogeneitysub-voxel methodTaylor multiscale schemeTEMtexturethickness reduction per passTiAl alloystip undercoolingtitaniumtitanium aluminidestransition carbidetwinningTWIP steelvariantvoxelization artifactsVPSCX-ray diffractometryHistory of engineering and technologyTóth Lászlóedt401621Denis SabineedtTóth LászlóothDenis SabineothBOOK9910557522503321Design of Alloy Metals for Low-Mass Structures3027210UNINA