Science and Processing of Cast Iron XI

Preface
Chapter 1: Structure Formation, Melting, Analysis of Solidification
The Role of Compounds in Graphite Formation in Cast Iron - A Review
Effect of Cooling Rate on the Eutectoid Transformation in Compacted Graphite Cast Iron
Effect of Cooling Rate and Aluminium Addition on Graphite Growth during Solidification and Graphitization
Evolution of Shrinkage with Carbon Equivalent and Inoculation in Ductile Cast Irons
Reassessment of Crystal Growth Theory of Graphite in Cast Iron
Effect of the Cooling Rate on the Graphite Nodule Count and Size Distribution in Nodular Cast Iron
Crystallography of Growth Blocks in Spheroidal Graphite
Degenerated Graphite Growth in Ductile Iron
Effect of Si and Ni Addition on Graphite Morphology in Heavy-Section Spheroidal Graphite Iron Parts
The Influence of Trace Elements on the Nature of the Nuclei of the Graphite in Ductile Iron
The Structure of Cast Irons
On the Primary Solidification of Compacted Graphite Iron: Microstructure Evolution during Isothermal Coarsening
Stereological Analysis of the Statistical Distribution of the Size of Graphite Nodules in DI
X-Ray Imaging of Formation and Growth of Spheroidal Graphite in Ductile Cast Iron
Evolution of the Macrostructure of Gray Cast Iron from Eutectic to Hypereutectic Composition
Revisiting Models for Spheroidal Graphite Growth
Melt Stirring of Nodular Cast Iron
Influence of the Magnesium Treatment in a Georg Fischer Converter
The Experimental Study of Nodular Cast Iron Volume Changes during Solidification
Maximization and Control of Nodular Iron Melt’s Self-Feeding Characteristics to Minimize Shrinkage
Density Variations during Solidification of Grey Cast Iron
Extended Method of Volume Change Measurements during Solidification of Lamellar Graphite Iron
Chapter 2: Alloyed Cast Iron and Austempered Ductile Iron
Analysis of Nuclei in a Heavy-Section Nodular Iron Casting
Transformation Kinetics and Mechanical Properties of Copper-Alloyed and Copper-Nickel Alloyed ADI
Impact of Molybdenum on Heat-Treatment and Microstructure of ADI
ADI 1050-6 Mechanical Behavior at Different Strain Rates and Temperatures
Correlation between Microstructure and Mechanical Properties of Austempered Ductile Irons
High Strain Rate Dynamic Deformation of ADI
Effect of Hot Working Parameters on Microstructure Evolution and Mechanical Properties of Ausformed Austempered Ductile Iron
A New High Strength High Ductile Nodular Iron
Influence of Cooling Rate on Nature and Morphology of Intercellular Precipitates in Si-Mo Ductile Irons
Austempering Experiments of Production Grade Silicon Solution Strengthened Ductile Iron
Chapter 3: Research and Testing Mechanical Properties of Cast Irons
Effect of Boron and Cross-Section Thickness on Microstructure and Mechanical Properties of Ductile Iron
Correlation between Solidification Time and Cooling Rate, Microstructure and Tensile Strength of a Low Alloyed Grey Cast Iron
Influence of Local Microstructure on Stresses, Durability and Fracture Mechanics of Cast Iron Components
Strength Prediction of Lamellar Graphite Iron: From Griffith’s to Hall-Petch Modified Equation
Variation of Tensile Properties of High Silicon Ductile Iron
Mechanism of Damage of Ferritic Ductile Iron, Influence of Matrix Heterogeneity
A Fatigue and Fracture Study on High Strength Cast Irons
Mechanical Properties and Impact Toughness of Nickel and Aluminum Alloyed High Silicon Ductile Iron
Understanding the Machinability of Austempered Ductile Iron (ADI)
Scratch Behaviour of Silicon Solid Solution Strengthened Ferritic Compacted Graphite Iron (CGI)
Residual Stresses in Cast Iron Components - Simulated Results Verified by Experimental Measurements
Ductile Cast Iron with High Toughness at Low Temperatures
Evaluation of Microstructure Quality in Ductile Irons Based on Tensile Behaviour Analysis
Chapter 4: High Temperature Properties
High-Temperature Oxidation of a High Silicon SiMo Spheroidal Cast Iron in Air with In Situ Change in H2O Content
Plastic Deformation and Creep of Two Ductile Cast Irons, SiMo51 and SiMo1000, during Thermal Cycling with Large Strains
High-Temperature Corrosion-Fatigue Behavior of Ductile Cast Irons for Exhaust Manifolds Applications
Thermo-Mechanical Fatigue of Grey Cast Iron for Cylinder Heads - Effect of Niobium, Molybdenum and Solidification Time
High Temperature Strength of Cast Irons for Cylinder Heads
Oxidation Resistant Cast Iron for High Temperature Application
Effect of C Content on High Temperature Erosive Wear Characteristics of Fe-Based V Containing Multi-Component Cast Steel with Ni
Chapter 5: Simulation Approaches and Mathematical Modeling
Prediction of Shrinkage Defects in Iron Castings Using a Microporosity Model
Modelling Approach and Challenges in Simulating Dross Formation in Ductile Iron Castings
Three-Dimensional Microstructural Characterization of Cast Iron Alloys for Numerical Analyses
Solidification Chronology of the Metal Matrix and a Study of Conditions for Micropore Formation in Cast Irons Using EPMA and FTA
Mathematical Characterization of the Tensile Deformation Curve of Cast Iron Materials
"Cast Iron - A Predictable Material” 25 Years of Modeling the Manufacture, Structures and Properties of Cast Iron
Residual Stresses around Individual Graphite Nodules in Ductile Iron: Impact on the Tensile Mechanical Properties
Three-Dimensional Modeling of Green Sand and Squeeze Molding Simulation
Chapter 6: Equipment and Assistive Technologies in Processing of Cast Iron
Visual Nonlinear Feedback Control of Liquid Level in Mold Sprue Cup by Cascade System with Flow Rate Control for Tilting-Ladle-Type Automatic Pouring System
Pressing Control Design Based on Analysis of Metal Temperature and Flow in Sand Mold Press Casting
Recent Advances in Cast Iron Structure and Properties Ultrasonic Testing and Flaw Detection
New Possibilities with Improved Green Sand Testing Equipment
Cast Iron Components with Intelligence
Quantified X-Ray Mapping in the WDS Mode