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Investigations of microstructure and dislocations of cast magnesium alloys

Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Purpose: The microstructures and the dislocation arrangements in the cast magnesium alloy have been investigated using transmission electron microscopy and high-resolution transmission electron microscopy. In this paper are presented also the results of phase morphology investigation of an new developed Mg alloy. Such studies are of great interest for the metal industry, mainly the automobile industry, were the improvement of cast elements quality is crucial for economic and quality reason and depends mainly on properly performed controlling process of the production parameters. There are presented especially the effect of heat treatment on the size and distribution of the precipitation occurred in the matrix. Design/methodology/approach: The basic assumptions of this work are realised an Universal Metallurgical Simulator and Analyzer. The solidification process itself is analysed using the UMSA device by appliance of the Derivative Thermo Analysis. The thermal analysis was performed at a low but regulated cooling rate in a range of 0.2 oC to ca. 3 oC. Cooling curve for the thermal analysis was performed using a high sensitivity thermocouples of the K type, covered with a stainless steel sheath. The data were acquired by a high speed data acquisition system linked to a PC computer. Two different types of samples were used, bulk-cylindrical, and thin-walled cylindrical. Metallographic investigation were made on cross section samples of a engine bloc. Non-equilibrium heating and cooling process conditions were applied to achieve changes in shape and distribution of the phases such as Al2Cu and Si. Findings: During the investigation Dislocation networks are found to increase with deformation in all cases. The dislocation networks have been found in the g- Mg17Al12 phase as well as in the matrix in the investigation magnesium alloys. The crystallographic orientation relationship are: (1 01) .-Mg Ś (10 ) Mg17Al12 and [11 0] .-Mg Ś [111] Mg17Al12. Precipitation of the g-Mg17Al12 phase are mostly of the shape of roads, and the prevailing growing directions are the directions <110> .-Mg. Research limitations/implications: The investigations were performed using standard metallographic investigation as optical, scanning and transmission electron microscopy methods, also electron diffraction methods were applied for phase identification. Originality/value: The originality of this work is based on applying of regulated cooling rate of magnesium alloy for structure and mechanical properties changes. In this work the dependence between the regulated heat treatment, chemical composition and structure of the investigated magnesium cast alloy on the basis of the structure investigations was presented.
Rocznik
Strony
94--102
Opis fizyczny
Bibliogr. 11 poz., rys., tabl.
Twórcy
autor
autor
  • Division of Materials Processing Technology, Management and Computer Techniques in Materials Science, Institute of Engineering Materials and Biomaterials, Silesian University of Technology, ul. Konarskiego 18a, 44-100 Gliwice, Poland, tomasz.tanski@polsl.pl
Bibliografia
  • [1] K.U. Kainer, Magnesium – Alloys and Technology, Wiley- VH, Weinheim, Germany, 2003, 272.
  • [2] E.F. Horst, B.L. Mordike, Magnesium Technology. Metallurgy, Design Data, Application, Springer-Verlag, Berlin Heidelberg, 2006, 707.
  • [3] A. Fajkiel, P. Dudek, G. Sęk-Sas, Foundry engineering XXI c. Directions of metallurgy development and light alloys casting, Publishers Institute of Foundry Engineering, Cracow, Poland, 2002, 60.
  • [4] L.A. Dobrzański, T. Tański, L. Cížek, Z. Brytan, Structure and properties of the magnesium casting alloys, Journal of Materials Processing Technology 192-193 (2007) 567-574.
  • [5] L.A. Dobrzański, T. Tański, Influence of aluminium content on behaviour of magnesium cast alloys in bentonite sand mould, Solid State Phenomena 147-149 (2009) 764-769.
  • [6] Z. Koren, H. Rosenson, E.M. Gutman, Ya. Unigovski, A. Eliezer, Development of semisolid casting for AZ91 and AM50 magnesium alloys, Journal of Light Metals 2 (2002) 81-87.
  • [7] R.M. Wang, A. Eliezer, E. Gutman, Microstructures and dislocations in the stressed AZ91D magnesium alloys, Materials Science and Engineering A 344 (2002) 279-287.
  • [8]R.M. Wang, A. Eliezer, E. Gutman, An investigation on the microstructure of an AM50 magnesium alloy, Materials Science and Engineering A 355 (2003) 201-207.
  • [9]M. Svoboda, M. Pahutova, K. Kucharova´, V. Sklenicka, T.G. Langdon, The role of matrix microstructure in the creep behaviour of discontinuous fiber-reinforced AZ 91 magnesium alloy, Materials Science and Engineering A 324 (2002) 151-156.
  • [10]S. Guldberg, N. Ryum, Microstructure and crystallographic orientation relationship in directionally solidified Mg–Mg17Al12-eutectic, Materials Science and Engineering A 289 (2000) 143-150.
  • [11]www.crct.polymtl
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BOS2-0023-0014
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