E-Book, Englisch, 419 Seiten, eBook
Nastac / Liu / Elena Ligia Ruxanda Advances in the Science and Engineering of Casting Solidification
1. Auflage 2016
ISBN: 978-3-319-48117-3
Verlag: Springer International Publishing
Format: PDF
Kopierschutz: 1 - PDF Watermark
An MPMD Symposium Honoring Doru Michael Stefanescu
E-Book, Englisch, 419 Seiten, eBook
Reihe: The Minerals, Metals & Materials Series
ISBN: 978-3-319-48117-3
Verlag: Springer International Publishing
Format: PDF
Kopierschutz: 1 - PDF Watermark
This collection encompasses the following four areas:
(1) Solidification processing: theoretical and experimental investigations of solidification processes including castings solidification, directional solidification of alloys, electromagnetic stirring, ultrasonic cavitation, mechanical vibration, active cooling and heating, powder bed-electron beam melting additive manufacturing, etc. for processing of metals, polymers and composite materials;
(2) Microstructure Evolution: theoretical and experimental studies related to microstructure evolution of materials including prediction of solidification-related defects and particle pushing/engulfment aspects;
(3) Novel Casting and Molding Processes: modeling and experimental aspects including high pressure die casting, permanent casting, centrifugal casting, low pressure casting, 3D silica sand mold printing, etc.; and
(4) Cast Iron: all aspects related to cast iron characterization, computational and analytical modeling, and processing.
Zielgruppe
Professional/practitioner
Autoren/Hrsg.
Weitere Infos & Material
1;Cover;1
2;Half Title;2
3;Title Page;4
4;Copyright Page;5
5;Table of Contents;6
6;Preface;12
7;About the Honoree;13
8;About the Editors;15
9;Solidification Processing I;24
9.1;Science of Casting and Solidification: ASM Handbook Contributions – Honoring Professor Doru Michael Stefanescu;25
9.2;On the Solidification of Metal Alloys during Microgravity Conditions;31
9.3;Formation of the Tin Rich Layer and Inverse-Segregation in Phosphor Bronzes during Continuous Casting;36
9.4;A Model of Cavitation for the Treatment of a Moving Liquid Metal Volume;44
9.5;Ultrasonic Processing of 6061-Based Nanocomposites for High Performance Applications;52
9.6;Numerical Modeling of the Dispersion of Ceramic Nanoparticles during Ultrasonic Processing of A356-based Nanocomposites;58
9.7;Optical Floating-Zone Crystal Growth of Heusler Ni-Mn-Sn Alloy;69
10;Solidification Processing II;75
10.1;Modeling of Macrosegregation during Solidification of Steel Ingot Casting;76
10.2;Scaling Analysis of Alloy Solidification and Fluid Flow in a Rectangular Cavity;84
10.3;Structure and Casting Defects of Aluminum Billets Produced by Direct-Chill Casting;92
10.4;The Fluid Flow and Solidification Phenomenon in Billet Continuous Casting Process with Mold and Final Electromagnetic Stirrings;100
10.5;Columnar-to-Equiaxed Transition in Zn-27wt.%Al Alloys: A Comparation Between Vertical and Horizontal Directional Solidifications;111
10.6;Microstructure Investigation of Aluminum Die-Cast Parts with Different Gating Conditions Tested in Fatigue;119
11;Solidification Processing III;128
11.1;A Coupled Thermo-Mechanical Simulation on Squeeze Casting Solidification Process of Three-Dimensional Geometrically Complex Components;129
11.2;Double Oxide Film Defects in Al Castings and the Effect of Different Element Additions;137
11.3;The Design of New Submerged Entry Nozzles for Beam-Blank Continuous Casting;145
11.4;Effects of Ce on the Thermal Stability of the ? Phase in a Cast Aluminum Metal Matrix Composite;153
12;Solidification Processing IV;161
12.1;Non-Metallic Ti Oxides and MnS/FeS? Complex Precipitation in Ti-Killed Steel;162
12.2;Prediction of Surface Porosity Defects in High Pressure Die Casting;169
12.3;Engineered Cooling Process for High Strength Ductile Iron Castings;178
12.4;Numerical Simulation of Solidification Structure for YQ450NQR1 Steel Bloom in Continuous Casting Process;185
13;Microstructure Evolution I;193
13.1;Modeling of Microstructure Evolution during Alloy Solidification;194
13.2;A Lattice Boltzmann Model for Dendritic Growth under Natural Convection;202
13.3;Modeling of Dendritic Structure and Microsegregation in Solidification of Al-Rich Quaternary Alloys;210
14;Microstructure Evolution II;218
14.1;In Situ Study on the Evolution of Dendrite Morphology Affected by Electric Field in Sn-Bi Alloy;219
14.2;Heterogeneous Strip Originated from Inclusions: Characterization and Physical Mechanism;225
14.3;An Investigation of Dendritic Segregation in Directionally Solidified CMSX-4 Superalloy;233
14.4;Modeling of Casting Defects in an Integrated Computational Materials Engineering Approach;241
14.5;X-ray Observations Showing the Effect of Fluid Flow on Dendritic Solidification in Ga-In Alloys;251
15;Cast Iron I;259
15.1;Defect Formation Mechanisms in Lamellar Cast Iron Related to the Casting Geometry;260
15.2;Characterization of Directionally Solidified Gray Iron;269
15.3;Age-Strengthening of Cast Iron and Its Effects on Machinability: Review of the Literature;277
15.4;Examination of Austenite Solidification and Spheroidal Graphite Growth in Ni-Fe-C Alloys;285
15.5;Production of Selected Key Ductile Iron Castings Used in Large-Scale Windmills;294
15.6;An Overview of Isothermal Coarsening in Hypoeutectic Lamellar Cast Iron;302
16;Cast Iron II;310
16.1;Experimental Studies of Gray Cast Iron Solidification with Linear Variable Differential Transformer;311
16.2;Undercooling, Cooling Curves and Nodule Count for Hypo- Hyper- and Eutectic Thin-Walled Ductile Iron Castings;319
16.3;Graphite Growth Morphologies in High Al Cast Iron;328
16.4;Thermophysical Properties of Thin Walled Compacted Graphite Iron Castings;336
16.5;Understanding Cast Iron Materials and Components: A Never Ending Story;344
16.6;Understanding Superfine Graphite Iron Solidification through Interrupted Solidification Experiments;352
17;Novel Casting and Molding Processes;360
17.1;Counter Gravity Casting;361
17.2;A Numerical Model for Predicting the Gas Evolution in Silica Sand (Furan Binder) Mold Castings;367
18;Solidification Processing V;375
18.1;Evaluation of the Casting/Chill Interface Thermal Behaviour during A319 Alloy Sand Casting Process;376
18.2;Dependence of Hardness on Microstructure of a Directionally Solidified Sn-40wt.%Bi-0.7wt.%Cu Alloy;384
18.3;Contributions on Optimizing Approximations in the Study of Melting and Solidification Processes that Occur in Processing by Electro-Erosion;393
18.4;Investigation of Thin-Walled IN718 Castings by Counter-Gravity Investment Casting;401
18.5;Thermal Test of Nodular Cast Iron Cooling Stave;409
19;Author Index;415
20;Subject Index;417
