Jordon / Miller / Joshi Magnesium Technology 2020

1;Preface;5
2;Contents;7
3;About the Editors;12
4;Session Chairs;15
5;Reviewer Pool;16
6;Part I Keynote Session;17
7;1 Twin Transmission Across Grain Boundaries in Mg;18
8;2 Hierarchically Structured Ultrafine Grained Magnesium Alloys;21
9;3 Multistage Fatigue (MSF) Modeling of Magnesium in a Corrosion Environment;26
10;4 Novel Texture Controlling of Mg Alloys;28
11;Part II Alloy Development;29
12;5 Design of Ductile Rare-Earth-Free Magnesium Alloys;30
13;6 Microstructure Evolution and Precipitation Strengthening in Ca-Containing Mg-Rare Earth Alloys;36
14;7 A Die-Cast Magnesium Alloy for Applications at Elevated Temperatures;42
15;8 Effect of Gd and Nd Additions on the Thermo-Mechanical Response of a MgMn Alloy;48
16;9 Development of Ultra Lightweight, Corrosion Resistant Mg Alloys;54
17;Part III Alloy Design and Solidification;60
18;10 Insights on Solidification of Mg and Mg–Al Alloys by Large Scale Atomistic Simulations;61
19;11 Two-Stage Settling Approach to Purify Mg Alloy;64
20;12 CALPHAD Modeling and Microstructure Investigation of Mg–Gd–Y–Zn Alloys;69
21;13 Intermetallic Phase Formation in Mg–Ag–Nd (QE) and Mg–Ag–Nd–Zn (QEZ) Alloys;78
22;14 Investigation on the Microstructure and Mechanical Properties of Mg–Gd–Nd Ternary Alloys;86
23;15 Recrystallization Effects on the Forming Behaviour of Magnesium Alloy Sheets with Varied Calcium Concentration;93
24;16 Towards the Development of High Ductility Mg–Al Based Alloys Through Second-Phase Refinement with Trace Yttrium Additions;101
25;17 Design of Heat-Dissipating Mg–La–Zn Alloys Based on Thermodynamic Calculations;107
26;18 Effects of Zn Additions on the Room Temperature Formability and Strength in Mg–1.2Al–0.5Ca–0.4Mn Alloy Sheets;111
27;Part IV Fundamentals, Mechanical Behavior, Twinning, Plasticity, and Texture I;118
28;19 An Investigation into the Role of Dislocation Climb During Intermediate Temperature Flow of Mg Alloys;119
29;20 Deviations from Theoretical Orientation Relationship Along Tensile Twin Boundaries in Magnesium;127
30;21 The Role of Faceting in {1012} Twin Nucleation;133
31;22 In Situ TEM Investigation of ?c+a?Dislocations in Magnesium;139
32;23 Full-Field Crystal Plasticity Modeling of {1012} Twin Nucleation;144
33;24 The Incorporation of Discrete Deformation Twins in a Crystal Plasticity Finite Element Framework;150
34;25 On the Load Multiaxiality Effect on the Cyclic Behaviour of Magnesium Alloys;153
35;Part V Thermomechanical Processing;162
36;26 Deformation Driven Precipitation in Binary Magnesium Alloys;163
37;27 Effect of Second Phase Particle Size on the Recrystallized Microstructure of Mg–Al Alloys Following ECAE Processing;166
38;28 Relating Texture and Thermomechanical Processing Variables in Mg–Zn–Ca Alloys;173
39;29 Variation of Extrusion Process Parameter for the Magnesium Alloy ME21;179
40;30 Asymmetric Rolling of TZ73 Magnesium Alloy to Improve Its Ductility;187
41;31 Friction Stir Processing of Magnesium Alloy with Spiral Tool Path Strategy;195
42;32 Joining Dissimilar Materials via Rotational Hammer Riveting Technique;204
43;Part VI Corrosion;210
44;33 Anomalous Hydrogen Evolution on Magnesium;211
45;34 Numerical Investigation of Micro-Galvanic Corrosion in Mg Alloys: Role of the Cathodic Intermetallic Phase Size and Spatial Distributions;213
46;35 The Corrosion Behavior of High Purity Mg According to Process History;220
47;36 Design of the Magnesium Composite with High Corrosion Resistance and High Deformability;226
48;37 Advanced Immersion Testing of Model Mg-Alloys for Biomedical Applications;230
49;38 Effect of 2 wt% Ag Addition on Corrosion Properties of ZK40 for Biodegradable Applications;238
50;39 Study of In Vitro Biodegradation Behavior of Mg–2.5Zn–xES Composite;248
51;40 Corrosion Behavior of Squeeze Cast Mg Alloy AM60-Based Hybrid Nanocomposite;254
52;Part VII Solidification and Production of Magnesium;261
53;41 Thermodynamic Descriptions of the Quaternary Mg–Al–Zn–Sn System and Their Experimental Validation;262
54;42 Investigation and Modelling of the Influence of Cooling Rates on the Microstructure of AZ91 Alloys;273
55;43 The Independent Effects of Cooling Rate and Na Addition on Hydrogen Storage Properties in Hypo-eutectic Mg Alloys;280
56;44 Producing High Purity Magnesium (99.99%) Directly by Pidgeon Process;289
57;45 Research on Properties of Prefabricated Pellets of Silicothermic Process After Calcination in Flowing Argon Atmosphere;293
58;46 Producing Pure Magnesium Through Silicothermic Under the Atmospheric Pressure;299
59;47 Effect of Temperature on Magnesium Vapor Condensation in Inert Carrier Gas;303
60;Part VIII Fundamentals, Mechanical Behavior, Twinning, Plasticity, and Texture II;309
61;48 Mapping Anisotropy and Triaxiality Effects in Magnesium Alloys;310
62;49 Cold Formability of Extruded Magnesium Bands;318
63;50 The Effect of Plastic Deformation on the Precipitation Hardening Behavior of Biodegradable Mg–Sr–Ca–Zn Based Alloys;324
64;51 Experimental Investigation of Raster Tool Path Strategy for Friction Stir Processing of Magnesium Alloy;329
65;52 Quantitative Relationship Analysis of Mechanical Properties with Microstructure and Texture Evolution in AZ Series Alloys;335
66;53 On the Influence of Twinning and Detwinning on the Deformation of Mg at the Micron Scale;342
67;54 An Investigation on the Microstructure and Mechanical Properties of the Hot-Dip-Aluminized-Q235/AZ91D Bimetallic Material Produced by Solid–Liquid Compound Casting;347
68;Part IX Poster Session;355
69;55 Effect of Zinc on Solidification and Aging Behaviour of Magnesium Alloys Containing Rare Earths;356
70;56 Influence of Manganese on Deformation Behavior of Magnesium Under Dynamic Loading;365
71;57 Microstructure and Hardness of Porous Magnesium Processed by Powder Metallurgy Using Polystyrene as the Space Holder;370
72;58 Correction to: Effects of Zn Additions on the Room Temperature Formability and Strength in Mg–1.2Al–0.5Ca–0.4Mn Alloy Sheets;375
73;Author Index;376
74;Subject Index;379