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Light metals and their alloys II : technology, microstructure and properties PDF

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Light Metals and their Alloys II Technology, Microstructure and Properties Edited by Anna J. Dolata Maciej Dyzia Light Metals and their Alloys II Technology, Microstructure and Properties Special topic volume with invited peer reviewed papers only. Edited by Anna J. Dolata and Maciej Dyzia Copyright  2012 Trans Tech Publications Ltd, Switzerland All rights reserved. No part of the contents of this publication may be reproduced or transmitted in any form or by any means without the written permission of the publisher. Trans Tech Publications Ltd Kreuzstrasse 10 CH-8635 Durnten-Zurich Switzerland http://www.ttp.net Volumes 191 of Solid State Phenomena ISSN 1662-9787 (Pt. B of Diffusion and Defect Data - Solid State Data (ISSN 0377-6883)) Full text available online at http://www.scientific.net Distributed worldwide by and in the Americas by Trans Tech Publications Ltd Trans Tech Publications Inc. Kreuzstrasse 10 PO Box 699, May Street CH-8635 Durnten-Zurich Enfield, NH 03748 Switzerland USA Phone: +1 (603) 632-7377 Fax: +41 (44) 922 10 33 Fax: +1 (603) 632-5611 e-mail: Introduction Faculty of Materials Engineering and Metallurgy was established in 1966 and currently is one of the 13 Faculties of Silesian University of Technology, located in Katowice. At present the faculty structure includes four departments: Metallurgy, Materials Technology, Materials Science and Management and Computer Science. The Faculty employs 38 professors and associate professors as well as 120 doctors (PhD). Scope of research activities includes materials engineering and metallurgy. The works carried out at the faculty are focused on research and development of advanced materials and their potential applications. Many scientific investigations are connected with problems of new technologies, formation the structure and properties of lightweight materials. This is the next collection of 30 articles presenting the results of research in scope of light metal alloys. That issue include three chapters: I – aluminium alloys, II – magnesium alloys and III – titanium alloys. Chapter I presents the subjects relating to the manufacturing of aluminum alloys, grain refinement and welding joints. This chapter presents also result of investigations concerning methods of obtaining and properties of aluminium matrix composites. Chapter II contain the papers presenting the results of researches carried out on conventional and new casting magnesium alloys. The first group of articles concern the effects of modification on the structure and properties of casting alloys. Following papers present results of researches on plastic deformation of Mg alloys. Subsequent articles cover topics related to the welding technologies. Last part of the chapter concern the magnesium matrix composites. Results of researches carried out on new generation of titanium alloys are presented in Chapter III. Papers included in this section concern the microstructure and properties Ti-Al base alloys. As well, possibilities of heat treatment and diffusion brazing of Ti alloys are discussed. This project is the second in the series of volume in the range of light metal alloys. The authors are planning to continue the series and publish every year. Editors. Table of Contents Introduction Chapter 1: Aluminium and Aluminium Alloys Numerical and Physical Modelling of Aluminium Refining Process Conducted in URO-200 Reactor M. Saternus and T. Merder 3 Hydrodynamics of the Aluminium Barbotage Process Conducted in a Continuous Reactor M. Saternus 13 Influence of Overheating Degree on Material Reliability of A390.0 Alloy J. Piątkowski 23 Mechamism of Grain Refinement in Al after COT Deformation K. Rodak and J. Pawlicki 29 Deformation-Induced Grain Refinement in AlMg5 Alloy K. Rodak, J. Pawlicki and M. Tkocz 37 CMT and MIG-Pulse Robotized Welding of Thin-Walled Elements Made of 6xxx and 2xxx Series Aluminium Alloys J. Adamiec, T. Pfeifer and J. Rykała 45 Fabrication of Ceramic-Metal Composites with Percolation of Phases Using GPI A. Boczkowska, P. Chabera, A.J. Dolata, M. Dyzia, R. Kozera and A. Oziębło 57 Producing of Composite Materials with Aluminium Alloy Matrix Containing Solid Lubricants A. Posmyk and J. Myalski 67 Machinability of Aluminium Matrix Composites J. Wieczorek, M. Dyzia and A.J. Dolata 75 Influence of Particles Type and Shape on the Corrosion Resistance of Aluminium Hybrid Composites A.J. Dolata, M. Dyzia and W. Walke 81 Course of Solidification Process of AlMMC – Comparison of Computer Simulations and Experimental Casting R. Zagórski, A.J. Dolata and M. Dyzia 89 Chapter 2: Magnesium and Magnesium Alloys Plasticity and Microstructure of Hot Deformed Magnesium Alloy AZ61 D. Kuc, E. Hadasik and I. Bednarczyk 101 Effect of Modification on the Structure and Properties of QE22 and RZ5 Magnesium Alloys S. Roskosz, B. Dybowski and J. Paśko 109 Influence of Mould Cooling Rate on the Microstructure of AZ91 Magnesium Alloy Castings S. Roskosz, B. Dybowski and R. Jarosz 115 Fractography and Structural Analysis of WE43 and Elektron 21 Magnesium Alloys with Unmodified and Modified Grain Size S. Roskosz, B. Dybowski and J. Cwajna 123 Precipitate Processes in Mg-5Al Magnesium Alloy A. Kiełbus 131 Influence of Pouring Temperature on Castability and Microstructure of QE22 and RZ5 Magnesium Casting Alloys B. Dybowski, R. Jarosz, A. Kiełbus and J. Cwajna 137 The Influence of Section Thickness on Microstructure of Elektron 21 and QE22 Magnesium Alloys M. Stopyra, R. Jarosz and A. Kiełbus 145 b Light Metals and their Alloys II The Influence of Tin on the Microstructure and Creep Properties of Mg-5Al-3Ca-0.7Sr- 0.2Mn Magnesium Alloy T. Rzychoń and B. Chmiela 151 On the Oxidation Behaviour of WE43 and MSR-B Magnesium Alloys in CO2 Atmosphere R. Przeliorz and J. Piątkowski 159 Galvanic Corrosion Test of Magnesium Alloys after Plastic Forming J. Przondziono, W. Walke and E. Hadasik 169 Creep Resistance of WE43 Magnesium Alloy Joints A. Kierzek and J. Adamiec 177 Impact of Heat Treatment on the Structure and Properties of the QE22 Alloy Welded Joints A. Kierzek and J. Adamiec 183 Microstructure of In Situ Mg Metal Matrix Composites Based on Silica Nanoparticles A. Olszówka-Myalska, S.A. McDonald, P.J. Withers, H. Myalska and G. Moskal 189 Microstructure of Mg-Ti-Al Composite Hot Pressed at Different Temperature A. Olszówka-Myalska, R. Przeliorz, T. Rzychoń and M. Misiowiec 199 Chapter 3: Titanium and Titanium Alloys The Chemical Composition and Microstructure of Ti-47Al-2W-0.5Si Alloy Melted in Ceramic Crucibles W. Szkliniarz and A. Szkliniarz 211 Grain Refinement of Ti-48Al-2Cr-2Nb Alloy by Heat Treatment Method A. Szkliniarz 221 Characteristics of Corrosion Resistance of Ti-C Alloys A. Szkliniarz and R. Michalik 235 Effect of a High-Temperature Hydrogen Treatment on a Microstructure and Surface Fracture in Titanium Ti-6Al-4V Alloy M. Sozańska 243 Diffusion Brazing of Titanium via Copper Layer M. Różański and J. Adamiec 249 CHAPTER 1: Aluminium and Aluminium Alloys © (2012) Trans Tech Publications, Switzerland doi:10.4028/www.scientific.net/SSP.191.3 Numerical and physical modelling of aluminium refining process conducted in URO-200 reactor 1, a 1, b Mariola Saternus , Tomasz Merder 1 Silesian University of Technology, ul. Krasińskiego 8, 40-019 Katowice, Poland a b 4 Light Metals and their Alloys II appropriate size of gas bubbles and their dispersion in the liquid metal ensures good efficiency of the process. The process of gas bubbles creation and their movement is very complex, so its analytical description present fundamental difficulties. As a solution in this case, modellling research is applied. In metallurgy there are many methods of modelling the liquid flow (see Fig. 1). Fig. 1. Modelling of the liquid flows applied in metallurgy [4] The hydrodynamic conditions can be determined by the physical modelling. However, the flow of mass and gas is not fully shown by this modelling, these kinds of research are very often and willingly [5-9] used due to difficulties in conducting experimental test in real conditions (sometimes this is even impossible). Additionally, modelling research is not as expensive as the one carried out in industrial conditions. This method gives possibility to obtain information about phenomena occurring in the liquid metal during the blowing process of gas bubbles. Water is used as a modelling agent of aluminium. It is applied because its accessibility, low costs, and especially the fact that some physical features of water in room temperature are similar to features of aluminium 0 in temperature 700 C (e.g. dynamic viscosity). If the results obtained from this kind of research are to be representative and can be transferred into the real conditions, the physical model has to be built according to the strict rules coming from the theory of similarity [10-13]. This similarity concerns the characteristic features of the real object that have important influence on the phenomena occurring in the examined process. Taking into account the construction of the examined metallurgical units it is essential to fulfill the following conditions: ¾ geometric similarity of the model and a real object, ¾ hydrodynamic similarity for the liquid flow in the model and the object which especially concerns: kinetic similarity, dynamic similarity, heat similarity. Fulfillment of the similarity rules according to the theory of dimensional analysis, can be done basing on the equality rule of the appropriate criterial numbers in the model and the examined object. The results obtained from the experimental test on the physical model, after verification, can be transferred to the real conditions. Taking into account both - the construction of refining reactors used for the barbotage process and the hydrodynamics of the metal flow, the adequate criterial

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