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Matthew Williamson
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Laissez entrer la couleur ! Véritable nuancier à unsage de ceux qui osent le rose tendre, le jaune moutarde, le rouge carmin, le vert olive ou le violet royal, ce livre est une invitation à suivre Matthew Williamson dans son univers haut en couleur. Le créateur de mode et décorateur passé maître en la matière donne ses inspirations dans toutes les pièces de la maison, jouant sur les teintes et la lumière comme personne. Un ouvrage joyeux et éclatant pour faire de son intérieur une fête et vivre en couleur !
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Proceedings of the 2013 International Symposium on Liquid Metal Processing and Casting
Alain Jardy, Matthew Krane, Rodney Williamson, Joseph Beaman
- Springer
- 6 Décembre 2016
- 9783319481029
Preface ix About the Editors xi Electroslag Remelting Computational Modeling of Electroslag Remelting (ESR) Process Used for the Production of High-Performance Alloys 3
K. Kelkar, S. Patankar, S. Srivatsa, R. Minisandram, D. Evans, J. deBarbadillo, R. Smith, R. Helmink, A. Mitchell, and H. Sizek A Numerical Study on the Influence of the Frequency of the Applied AC Current on the Electroslag Remelting Process 13
E. Sibaki, A. Kharicha, M. Wu, A. Ludwig, H. Holzgruber, B. Ofner, and M. Ramprecht A Thermodynamic Database for the Al203-CaF2-CaO System 21
L. Kjellqvist, P. Mason, Q. Chen, and K. Wu Influence of the Polarity on the Cleanliness Level and the Inclusion Types in the ESR Process 29
A. Paar, R. Schneider, P. Zeller, G. Reiter, S. Paul, I. Siller, and P. Wurzinger Hot Test and Simulation of ESR Hollow Ingots Formation in Current Supplying Mould with Electrodes Change 37
X. Chen, Z. Jiang, L. Medovar, F. Liu, G. Stovpchenko, B. Fedorovskii, L. Vitalii, X. Zang, and X. Deng Design of ESR Slags According to Requested Physical Properties; Part 2: Density and Viscosity 43
K. Wroblewski, B. DiBiaso, J. Fraley, J. Fields, and S. Rudoler Predicting Melting Behavior of an Industrial Electroslag Remelting Ingot 47
J. Yanke, K. Fezi, M. Fahrmann, and M. Krane Operational Experience of Large Sized ESR Plants and Attainable Quality of ESR Ingots with a Diameter of Up to 2600mm 57
M. Kubin, A. Scheriau, M. Knabl, H. Holzgruber, and H. Kawakami Experimental Research on the Absorption of Fluorine in Gamma-TiAl during Electroslag Remelting 65
P. Spiess and B. Friedrich A Parametric Study of Slag Skin Formation in Electroslag Remelting 71
J. Yanke and M. Krane Impact of the Solidified Slag Skin on the Current Distribution during Electroslag Remelting 79
M. Hugo, B. Dussoubs, A. Jardy, J. Escaffre, and H. Poisson Investigation of Slag Compositions and Pressure Ranges Suitable for Electroslag Remelting under Vacuum Conditions 87
S. Radwitz, H. Scholz, and B. Friedrich Contribution of the Mould Current to the Ingot Surface Quality in the Electroslag Remelting Process 95
A. Kharicha, E. Sibaki, M. Wu, and A. Ludwig Mechanisms of Calcium Oxide Dissolution in CaO-Al203-Si02-Based Slags 101
M. Guo, Z. Sun, X. Guo, and B. Blanpain Effect of Fluoride Containing Slag on Oxide Inclusions in Electroslag Ingot 109
Y. Dong, Z. Jiang, Y. Cao, J. Fan, A. Yu, and F. Liu Production of High Quality Die Steels from Large ESR Slab Ingots 115
X. Geng, Z. Jiang, H. Li, F. Liu, and X. Li A Study of Slag and Steel Leakage Influence Factors during Electroslag Remelting Withdrawing Process 119
X. Zang, Z. Jiang, H. Song, F, Liu, X. Deng, X. Chen, and C. Han Factors Affecting Surface Quality of Ingot Produced by Electroslag Continuous Casting with Liquid Metal 123
X. Deng, Z. Jiang, and X. Zang Mathematical Model of Solidification during Electroslag Casting of Pilger Roll 127
F. Liu, H. Li, Z. Jiang, Y. Dong, X. Chen, X. Geng, and X. Zang Introducing Carbon Nanoparticles in Titanium during Chamber Electroslag Remelting (CHESR) 133
A. Ryabtsev, B. Friedrich, F. Leokha, S. Ratiev, O. Snizhko, P. Spiess, and S. Radwitz Evolution of ESR Technology and Equipment for Long Hollow Ingots Manufacture 137
L. Medovar, G. Stovpchenko, G. Dudka, A. Kozminskiy, B. Fedorovskii, V. Lebid, and I. Gusiev Variation of the Resistance during the Electrode Movement in the Electroslag Remelting Process 145
A. Kharicha, M. Wu, and A. Ludwig Modeling Macrosegregation during Electroslag Remelting of Alloy 625 151
K. Fezi, J. Yanke, and M. Krane Comparison of Arc Slag Remelting vs. P-ESR Melting for High Nitrogen Steels 159
R. Ritzenhoff, L. Medovar, V. Petrenko, and G. Stovpchenko Defects Numerical Simulation of Macrosegregation in 570-Ton Low-Alloyed Steel Ingot 165
T. Sawada and K. Kajikawa Using a Three-Phase Mixed Columnar-Equiaxed Solidification Model to Study Macrosegregation in Ingot Castings: Perspectives and Limitations 171
M. Wu, J. Li, A. Kharicha, and A. Ludwig Effect of Solidification Front Angle on Freckle Formation in Alloy 625 181
K. Kajikawa, M. Tanaka, T. Sawada, and S. Suzuki The Behaviour of Entrainment Defects in Aluminium Alloy Castings 187
W. Griffiths, A. Caden, and M. El-Sayed Inclusion Behavior in Steel and Aluminum Making Reactors 193
J. Bellot, O. Mirgaux, and A. Jardy Modeling the Titanium Nitride (TiN) Germination and Growth during the Solidification of a Maraging Steel 201
V. Descotes, J. Bellot, S. Witzke, and A. Jardy Thermodynamics for the Influence of Slag Composition on the Inclusion Control in Semi-Killed Liquid Steels 207
J. Park and J. Park The Influence of Different Melting and Remelting Routes on the Cleanliness of High Alloyed Steels 213
G. Reiter, W. Schuetzenhoefer, A. Tazreiter, C. Martinez, P. Wuerzinger, and C. Loecker Refinement of Primary and Eutectic Silicon Particles in Hypereutectic Al-Si Alloys Using an Applied Electric Potential 219
A. Plotkowski and P. Anyalebechi Characterization of Bifilms and Oxide Inclusions in Investment Cast IN 100 229
M. Kaplan and G. Fuchs Vacuum Arc Remelting Application of a Model for Simulating the Vacuum Arc Remelting Process in Titanium Alloys 241
A. Pat el, D. Tripp, andD. Fiore Controlling Liquid Pool Depth in VAR of a 21.6cm Diameter Ingot of Alloy 718 245
F. Lopez, J. Beaman, R. Williamson, E. Taleff, and T. Watt Simulation of Radiation Heat Transfer in a VAR Furnace Using an Electrical Resistance Network 253
A. Ballantyne Solidification Mapping of a Nickel Alloy 718 Laboratory VAR Ingot 261
T. Watt, E. Taleff, F. Lopez, J. Beaman, andR. Williamson Aluminum Processing Improvement of Mechanical Properties of HPDC A356 Alloy through Melt Quenching Process 273
S. Ji, W. Yang, B. Jiang, andZ. Fan Review of Hot Tearing Studies in Al Alloys during Direct Chill Casting 277
A. Nallathambi, P. Penumakala, andE. Specht Effect of Sonotrode Design on Simultaneous Grain Refinement and Degassing of Al Alloys by Ultrasound 283
J. Youn, Y. Lee, K. Jung, B. Choi, and Y. Kim Miscellaneous Liquid Metal Engineering by Application of Intensive Melt Shearing 291
J. Patel, Y. Zuo, and Z. Fan -
Matthew williamson fashion, print and colouring
Williamson Matthew
- Laurence King
- 31 Août 2016
- 9781780678979
Un ouvrage grand format qui présente les motifs et les créations du styliste anglais Matthew Williamson. Mélangeant photographies, motifs et pages à coloriées, cet ouvrage offre une vue globale de l'univers de l'artiste, trés influencé par la culture Indienne.