00963nam0-22003011i-450-99000205957040332120090603151451.0000205957FED01000205957(Aleph)000205957FED0100020595720030910d1969----km-y0itay50------bafre<<La >>protection des plantes horticoles contre leurs ennemisJean Mimaud et Michel PelossierParisBailliere et Fils1969379 p.ill.24 cm<<Les >>manuels professionels horticolesG. SoubeyrandPiante OrtiveInsetti dannosi635Mimaud,Jean87878Pelossier,Michel87879ITUNINARICAUNIMARCBK99000205957040332161 IX C.4/703361 (17/10/79)DAGENDAGENProtection des plantes horticoles contre leurs ennemis393252UNINA02166nam 2200565Ia 450 991070145470332120120222121046.0(CKB)5470000002418530(OCoLC)777824673(EXLCZ)99547000000241853020120222d1989 ua 0engurbn|||||||||txtrdacontentcrdamediacrrdacarrierStudy of deposition of YBa2Cu3O7-x on cubic zirconia[electronic resource] /Joseph D. Warner and Joseph E. Meola, and Kimberly A. JenkinsCleveland, Ohio :NASA, Lewis Research Center,[1989]1 online resource (5 pages) illustrationsNASA technical memorandum ;102350Title from title screen (viewed on Feb. 22, 2012)."Prepared for the Third Annual Conference on Superconductivity and Applications sponsored by The New York State Institute on Superconductivity Buffalo, New York, September 19-21, 1989."Includes bibliographical references (page 5).Copper oxidesnasatHigh temperature superconductorsnasatLaser beamsnasatSuperconducting filmsnasatZirconium oxidesnasatCopper oxide superconductorsHigh temperature superconductorsLaser beamsCopper oxides.High temperature superconductors.Laser beams.Superconducting films.Zirconium oxides.Copper oxide superconductors.High temperature superconductors.Laser beams.Warner Joseph D1389722Meola Joseph E1389723Jenkins Kimberly A1389724Lewis Research Center.Conference on Superconductivity and Applications(3rd :1989 :Buffalo, N.Y.)GPOGPOBOOK9910701454703321Study of deposition of YBa2Cu3O7-x on cubic zirconia3441654UNINA06453nam 2201849z- 450 9910404079603321202102123-03928-886-5(CKB)4100000011302342(oapen)https://directory.doabooks.org/handle/20.500.12854/60358(oapen)doab60358(EXLCZ)99410000001130234220202102d2020 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierSustainable Utilization of Metals: Processing, Recovery and RecyclingMDPI - Multidisciplinary Digital Publishing Institute20201 online resource (388 p.)3-03928-885-7 The high demand for advanced metallic materials raises the need for an extensive recycling of metals and such a sustainable use of raw materials. ""Sustainable Utilization of Metals - Processing, Recovery and Recycling"" comprises the latest scientific achievements in efficient production of metals and such addresses sustainable resource use as part of the circular economy strategy. This policy drives the present contributions, aiming on the recirculation of EoL-streams such as Waste Electric and Electronic Equipment (WEEE), multi-metal alloys or composite materials back into metal production. This needs a holistic approach, resulting in the maximal avoidance of waste. Considering both aspects, circular economy and material design, recovery and use of minor metals play an essential role, since their importance for technological applications often goes along with a lack of supply on the world market. Additionally, their ignoble character and low concentration in recycling materials cause an insufficient recycling rate of these metals, awarding them the status of "critical metals". In order to minimize losses and energy consumption, this issue explores concepts for the optimization concerning the interface between mechanical and thermal pre-treatment and metallurgical processes. Such new approaches in material design, structural engineering and substitution are provided in the chapters.Sustainable Utilization of Metalsalkaline leachingaluminium purificationaluminum alloyammonium scandium hexafluorideanti-solvent crystallizationbasic oxygen furnacebattery pre-treatmentbauxite residueBayan OboBayer processblast furnacecarbothermal reductioncavitationcementationceriumcharacterizationchemical equilibrium diagramcircular economycirculationclosed-loop circulationcold-bonded briquettescondensationcoppercopper removalcryogenic pre-treatmentdesulfurizationdimethyl sulfoxidedisplaysdustdynamic material flow modeldysprosiumelectric arc furnaceelectrodepositionelectrolytic lodes and scrapingselectrolytic manganeseenrichment of Tienvironmentally friendly processfinesflash smeltingflotationgalliumglass polishing wastegoldgravity separationhalogenationhydrometallurgyindiumindustrial residueindustry sectorintermetallic formationionic liquidsiron removaljarositejarosite residuekarst bauxitekineticslanthanumlateritesleachingLi-ion batterylifetime of steelmagnesiummanganesematerial flow analysismelting behaviormetal recoverymetallurgymicrowave assisted pyrolysisn/aNdFeB magnetsnegative activation energyneodymiumNMC batteriesoxygen-depolarized cathodesphysical separationpolishing wastepolythermal sectionprecipitationpreparation for recoveryprocess developmentpyrolysispyrometallurgyrare earth elementsrare earthsrare-earthsrecyclingrecycling potentialrecycling ratered mudreduction of CoREE-Nb-Fe orerefiningreuserheorefiningscandiumscandium recoveryselective extractionselective precipitationseparationsilversilver leachingsimultaneous recoveryslag valorizationsludgesmartphonesolvent extractionspent catalystssteel scrapsteelmaking dustsuper-gravitysustainable developmentthermal treatmentthermodynamicsTin recoverytitanium recoverytrace elementstramp elementultra-high purityvacuum distillationvanadiumvolatilizationwaste utilizationWPCBWPCBsyttriumzincZinczinc recyclingFriedrich Berndauth307173BOOK9910404079603321Sustainable Utilization of Metals: Processing, Recovery and Recycling3039219UNINA