07550nam 22021973a 450 991036756840332120250203235431.09783039213306303921330X10.3390/books978-3-03921-330-6(CKB)4100000010106062(oapen)https://directory.doabooks.org/handle/20.500.12854/50684(ScCtBLL)82b57cf9-a6c6-410c-898c-2028dc04dd00(OCoLC)1163848040(EXLCZ)99410000001010606220250203i20192019 uu engurmn|---annantxtrdacontentcrdamediacrrdacarrierIronmaking and SteelmakingZushu Li, Claire DavisBasel, Switzerland :MDPI,2019.1 electronic resource (464 p.)9783039213290 3039213296 Steel is a critical material in our societies and will remain an important one for a long time into the future. In the last two decades, the world steel industry has gone through drastic changes and this is predicted to continue in the future. The Asian countries (e.g. China, India) have been dominant in the production of steel creating global over-capacity, while the steel industry in the developed countries have made tremendous efforts to reinforce its global leadership in process technology and product development, and remain sustainable and competitive. The global steel industry is also facing various grand challenges in strict environmental regulation, new energy and materials sources, and ever-increasing customer requirements for high quality steel products, which has been addressed accordingly by the global iron and steel community. This Special Issue, "Ironmaking and Steelmaking", released by the journal Metals, published 33 high quality articles from the international iron and steel community, covering the state-of-the-art of the ironmaking and steelmaking processes. This includes fundamental understanding, experimental investigation, pilot plant trials, industrial applications and big data utilization in the improvement and optimization of existing processes, and research and development in transformative technologies. It is hoped that the creation of this special issue as a scientific platform will help drive the iron and steel community to build a sustainable steel industry.artificial neural networkcorrosioninclusion controlsteel-makingsimulationliquid steelphosphate capacityslaghydrogenTG analysissurface roughnessiron sulfateshot peeningrefining kineticsiso-conversional methodoxygen blast furnaceBarkhausen noisegas flow rateductile cast irontoughnessself-reduction briquetteMg deoxidationphosphorus distribution ratioiron oxidesphase analysisdesiliconisationsolid flowCaO/Al2O3 ratiosurface depressioncarbothermal reductionrotary hearth furnacetorrefied biomasshot metal pre-treatmentinclusionsmicrowavesironmakingreactivityCaO-based slagshigh-aluminum iron oreoxidesHPSRinternal crackfluorapatitecrystallization rateCOREXliquid areaAl additionWilcox-Swailes coefficientplasma arcevaluation of coupling relationshippenetration theorysilicate crystalsionization degreepellet sizeprediction modelcontinuous castingdirect element methodmodified NPL modelslag filmvolatile mattercrystallite sizeAl-TRIP steelviscosityanosovite crystalsslag formationCO2 emissionsintegrated steel plantflow patternhigh-heat-input weldingdephosphorisationcopper stavedirect reductionshrinkageCr recoverychemical compositionhigh speed steelmaterial flow33MnCrTiBgas-based reductionconverterbio-coalflat steelsulfur distribution ratiocold experimentsecondary refining processre-oxidationvaporization dephosphorizationsulfide capacityelectroslag claddinghydrogen attackoxygen steelmakingnon-metallic inclusionscracksnon-contact measurementenergy consumptionhigh-manganese iron orenon-metallic inclusionCa deoxidationCa-treatmentcompressive strength (CS)oil-pipeline steelthermal treatmentcarbon monoxidecomposite rollcrystallization behaviorsdevolatilizationcarbon-saturated ironsteelmaking factoryslag crustcombustionhigh heat input weldingore-carbon briquetteactivation energyflow velocitykineticshydrogen plasmacasting speedsolid and gaseous oxygenhercynitelow fluorineiron ore pelletsfayaliteheat-affected zoneCO-CO2 atmosphereand nitrogensmelting reductionhigh-phosphorus iron oreiron oxidemold fluxBaOintragranular acicular ferritecarbon composite pelletelectrolytic extractioniron orecarbon dioxideagglomeratevanadium titano-magnetiteemission spectrumstatic process modelconcentratestructuretitanium slagbonding interfaceforkblast furnacereaction mechanismreductionsynergistic reductioninjectionprincipal component analysisultrafine particles exposureLi Zushu1328952Davis ClaireScCtBLLScCtBLLBOOK9910367568403321Ironmaking and Steelmaking3039216UNINA