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Ironmaking and Steelmaking

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 domina...

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Bibliographic Details
Main Author: Li, Zushu
Other Authors: Davis, Claire
Format: eBook
Language:English
Published: MDPI - Multidisciplinary Digital Publishing Institute 2019
Subjects:
Surface Roughness
Structure
Al-trip Steel
High Heat Input Welding
Carbothermal Reduction
Slag Film
Oxygen Steelmaking
Carbon Dioxide
Synergistic Reduction
High-aluminum Iron Ore
Converter
Non-metallic Inclusion
Vaporization Dephosphorization
Gas Flow Rate
Hercynite
Bao
Crystallization Behaviors
Modified Npl Model
Co-co2 Atmosphere
Reaction Mechanism
Iron Oxide
Cracks
Compressive Strength (cs)
Plasma Arc
Sulfide Capacity
Refining Kinetics
Corex
Non-metallic Inclusions
Solid Flow
Ca-treatment
Volatile Matter
Dephosphorisation
Viscosity
Electrolytic Extraction
Anosovite Crystals
Rotary Hearth Furnace
Artificial Neural Network
Fork
Shrinkage
33mncrtib
Flow Velocity
Phosphate Capacity
Static Process Model
Ionization Degree
Non-contact Measurement
Pellet Size
Desiliconisation
Intragranular Acicular Ferrite
Direct Reduction
Phase Analysis
Emission Spectrum
Fluorapatite
Heat-affected Zone
Slag Formation
Bonding Interface
Injection
Fayalite
Microwaves
Cr Recovery
Copper Stave
Liquid Steel
Solid And Gaseous Oxygen
Smelting Reduction
Evaluation Of Coupling Relationship
Silicate Crystals
Material Flow
Low Fluorine
Concentrate
Cold Experiment
Sulfur Distribution Ratio
Iron Ore Pellets
Steel-making
Self-reduction Briquette
Prediction Model
Cao/al2o3 Ratio
Integrated Steel Plant
Iso-conversional Method
Devolatilization
Internal Crack
Tg Analysis
Oxides
Liquid Area
Hot Metal Pre-treatment
Carbon Composite Pellet
Direct Element Method
N/a
Steelmaking Factory
Carbon Monoxide
Barkhausen Noise
Flat Steel
Iron Oxides
Energy Consumption
Hydrogen Plasma
High-heat-input Welding
Mg Deoxidation
Cao-based Slags
Electroslag Cladding
Wilcox-swailes Coefficient
Corrosion
Ore-carbon Briquette
Composite Roll
Activation Energy
Torrefied Biomass
Iron Sulfate
Simulation
Secondary Refining Process
Oil-pipeline Steel
Vanadium Titano-magnetite
Phosphorus Distribution Ratio
Surface Depression
High-manganese Iron Ore
Inclusion Control
Principal Component Analysis
Hpsr
Oxygen Blast Furnace
Re-oxidation
Continuous Casting
Al Addition
Reduction
Ironmaking
Kinetics
Reactivity
Thermal Treatment
Ultrafine Particles Exposure
Gas-based Reduction
And Nitrogen
Titanium Slag
Inclusions
Ductile Cast Iron
Mold Flux
Combustion
Agglomerate
Blast Furnace
Chemical Composition
Carbon-saturated Iron
High-phosphorus Iron Ore
High Speed Steel
Shot Peening
Casting Speed
Slag Crust
Hydrogen
Hydrogen Attack
Toughness
Crystallization Rate
Bio-coal
Crystallite Size
Slag
Flow Pattern
Iron Ore
Penetration Theory
Ca Deoxidation
Co2 Emissions
Online Access:
Collection: Directory of Open Access Books - Collection details see MPG.ReNa
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100 1 |a Li, Zushu 
245 0 0 |a Ironmaking and Steelmaking  |h Elektronische Ressource 
260 |b MDPI - Multidisciplinary Digital Publishing Institute  |c 2019 
300 |a 1 electronic resource (464 p.) 
653 |a surface roughness 
653 |a structure 
653 |a Al-TRIP steel 
653 |a high heat input welding 
653 |a carbothermal reduction 
653 |a slag film 
653 |a oxygen steelmaking 
653 |a carbon dioxide 
653 |a synergistic reduction 
653 |a high-aluminum iron ore 
653 |a converter 
653 |a non-metallic inclusion 
653 |a vaporization dephosphorization 
653 |a gas flow rate 
653 |a hercynite 
653 |a BaO 
653 |a crystallization behaviors 
653 |a modified NPL model 
653 |a CO-CO2 atmosphere 
653 |a reaction mechanism 
653 |a iron oxide 
653 |a cracks 
653 |a compressive strength (CS) 
653 |a plasma arc 
653 |a sulfide capacity 
653 |a refining kinetics 
653 |a COREX 
653 |a non-metallic inclusions 
653 |a solid flow 
653 |a Ca-treatment 
653 |a volatile matter 
653 |a dephosphorisation 
653 |a viscosity 
653 |a electrolytic extraction 
653 |a anosovite crystals 
653 |a rotary hearth furnace 
653 |a artificial neural network 
653 |a fork 
653 |a shrinkage 
653 |a 33MnCrTiB 
653 |a flow velocity 
653 |a phosphate capacity 
653 |a static process model 
653 |a ionization degree 
653 |a non-contact measurement 
653 |a pellet size 
653 |a desiliconisation 
653 |a intragranular acicular ferrite 
653 |a direct reduction 
653 |a phase analysis 
653 |a emission spectrum 
653 |a fluorapatite 
653 |a heat-affected zone 
653 |a slag formation 
653 |a bonding interface 
653 |a injection 
653 |a fayalite 
653 |a microwaves 
653 |a Cr recovery 
653 |a copper stave 
653 |a liquid steel 
653 |a solid and gaseous oxygen 
653 |a smelting reduction 
653 |a evaluation of coupling relationship 
653 |a silicate crystals 
653 |a material flow 
653 |a low fluorine 
653 |a concentrate 
653 |a cold experiment 
653 |a sulfur distribution ratio 
653 |a iron ore pellets 
653 |a steel-making 
653 |a self-reduction briquette 
653 |a prediction model 
653 |a CaO/Al2O3 ratio 
653 |a integrated steel plant 
653 |a iso-conversional method 
653 |a devolatilization 
653 |a internal crack 
653 |a TG analysis 
653 |a oxides 
653 |a liquid area 
653 |a hot metal pre-treatment 
653 |a carbon composite pellet 
653 |a direct element method 
653 |a n/a 
653 |a steelmaking factory 
653 |a carbon monoxide 
653 |a Barkhausen noise 
653 |a flat steel 
653 |a iron oxides 
653 |a energy consumption 
653 |a hydrogen plasma 
653 |a high-heat-input welding 
653 |a Mg deoxidation 
653 |a CaO-based slags 
653 |a electroslag cladding 
653 |a Wilcox-Swailes coefficient 
653 |a corrosion 
653 |a ore-carbon briquette 
653 |a composite roll 
653 |a activation energy 
653 |a torrefied biomass 
653 |a iron sulfate 
653 |a simulation 
653 |a secondary refining process 
653 |a oil-pipeline steel 
653 |a vanadium titano-magnetite 
653 |a phosphorus distribution ratio 
653 |a surface depression 
653 |a high-manganese iron ore 
653 |a inclusion control 
653 |a principal component analysis 
653 |a HPSR 
653 |a oxygen blast furnace 
653 |a re-oxidation 
653 |a continuous casting 
653 |a Al addition 
653 |a reduction 
653 |a ironmaking 
653 |a kinetics 
653 |a reactivity 
653 |a thermal treatment 
653 |a ultrafine particles exposure 
653 |a gas-based reduction 
653 |a and nitrogen 
653 |a titanium slag 
653 |a inclusions 
653 |a ductile cast iron 
653 |a mold flux 
653 |a combustion 
653 |a agglomerate 
653 |a blast furnace 
653 |a chemical composition 
653 |a carbon-saturated iron 
653 |a high-phosphorus iron ore 
653 |a high speed steel 
653 |a shot peening 
653 |a casting speed 
653 |a slag crust 
653 |a hydrogen 
653 |a hydrogen attack 
653 |a toughness 
653 |a crystallization rate 
653 |a bio-coal 
653 |a crystallite size 
653 |a slag 
653 |a flow pattern 
653 |a iron ore 
653 |a penetration theory 
653 |a Ca deoxidation 
653 |a CO2 emissions 
700 1 |a Davis, Claire 
041 0 7 |a eng  |2 ISO 639-2 
989 |b DOAB  |a Directory of Open Access Books 
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028 5 0 |a 10.3390/books978-3-03921-330-6 
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520 |a 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. 

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