MD Anwar Parvez
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{{Infobox.member | {{Infobox.member | ||
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|fullname = MD Anwar Parvez | |fullname = MD Anwar Parvez | ||
|email = suzanparvez[at]hotmail.com | |email = suzanparvez[at]hotmail.com | ||
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| − | == Project | + | == Project Title == |
Experimental Studies of Mg-Al-Sr System (In collaboration with CANMET-MTL). | Experimental Studies of Mg-Al-Sr System (In collaboration with CANMET-MTL). | ||
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Magnesium (Mg) alloys can replace other heavier materials in order to reduce weight in automotive and aerospace applications. The current use of Mg in automotive application is restricted to non-critical parts because of their low creep resistance especially at elevated temperatures. Diecasted Mg-Al-Sr alloys, developed by Noranda, offer creep resistance, superior diecastibility, tensile strength and corrosion resistance compared to commercially available Mg alloys with rare earth additions. To control the process conditions for the specific alloy properties, knowledge of phase diagram is essential. Although this alloy system has a high potential for automotive application, few data points are available for the ternary Mg-Al-Sr system. Through the course of this research I will investigate this system experimentally using Differential Scanning Calorimetry (DSC) and Thermogravimetric Analysis (TGA). A comparison will also be made with the existing thermodynamic data. This new experimental data will also provide a base for further refinement of the thermodynamic model. In this research, emphasis is given on Mg-rich corner because of our interest in Mg-alloys. This research will be conducted in collaboration with CANMET-MTL, Ottawa. | Magnesium (Mg) alloys can replace other heavier materials in order to reduce weight in automotive and aerospace applications. The current use of Mg in automotive application is restricted to non-critical parts because of their low creep resistance especially at elevated temperatures. Diecasted Mg-Al-Sr alloys, developed by Noranda, offer creep resistance, superior diecastibility, tensile strength and corrosion resistance compared to commercially available Mg alloys with rare earth additions. To control the process conditions for the specific alloy properties, knowledge of phase diagram is essential. Although this alloy system has a high potential for automotive application, few data points are available for the ternary Mg-Al-Sr system. Through the course of this research I will investigate this system experimentally using Differential Scanning Calorimetry (DSC) and Thermogravimetric Analysis (TGA). A comparison will also be made with the existing thermodynamic data. This new experimental data will also provide a base for further refinement of the thermodynamic model. In this research, emphasis is given on Mg-rich corner because of our interest in Mg-alloys. This research will be conducted in collaboration with CANMET-MTL, Ottawa. | ||
| + | == Thesis == | ||
| + | *[[:File:Anwar-Thesis-fianl.pdf|Experimental investigation of the ternary Mg-Al_Sr system]]'' - MASc'' | ||
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[1] M. Medraj, M.A. Parvez, E. Essadiqi and Jian Li, “[http://users.encs.concordia.ca/~mmedraj/papers/mg-al-sr%20-%20new%20phases.pdf New Phases in the Mg-Al-Sr System]”, Journal of Materials Science Forum, Vols. 539-543, 1620-1625 (2007). | [1] M. Medraj, M.A. Parvez, E. Essadiqi and Jian Li, “[http://users.encs.concordia.ca/~mmedraj/papers/mg-al-sr%20-%20new%20phases.pdf New Phases in the Mg-Al-Sr System]”, Journal of Materials Science Forum, Vols. 539-543, 1620-1625 (2007). | ||
| − | [2] M. | + | [2] M. Medraj, R. Hammond, M.A. Parvez, R. A. L. Drew and W. T. Thompson, “[http://www.me.concordia.ca/~mmedraj/papers/al2o3-y2o3 neutron diffraction.pdf High Temperature Neutron Diffraction Study of the Al2O3-Y2O3 System]”, Journal of the European Ceramic Society, Vol. 26, Issue 16, 3515-3524 (2006). |
| − | [3] M.A. Parvez, | + | [3] M.A. Parvez, M. Medraj, E. Essadiqi, A. Muntasar and G. Dénès, "[http://www.me.concordia.ca/~mmedraj/papers/mg-al-sr.pdf Experimental Study of the Ternary Magnesium-Aluminum-Strontium System]", Journal of Alloys and Compounds, Vol. 402, Issue1-2, 170-185 (2005). |
| − | [4] M.A. Parvez, E. Essadiqi and M. Medraj, "[http://www.me.concordia.ca/~mmedraj/papers/anwar.pdf Thermal Analytical Investigations of Ternary Mg-Al-Sr System by DSC]", Proc. CSME Forum 2004, 829-838 London, Ontario, Canada (June 1-4, 2004). | + | [4] M.A. Parvez, X. Wang, E. Essadiqi and M. Medraj, "[http://www.me.concordia.ca/~mmedraj/papers/tms%202005_medraj.pdf Experimental Investigation of the Equlibria in Mg-Al-(Ca,Sr) Systems]", 2005 TMS Annual Meeting - Magnesium Technology 2005, 179-184, San Francisco, California, USA (February 13-17, 2005). |
| + | |||
| + | [5] M.A. Parvez, E. Essadiqi and M. Medraj, "[http://www.me.concordia.ca/~mmedraj/papers/anwar.pdf Thermal Analytical Investigations of Ternary Mg-Al-Sr System by DSC]", Proc. CSME Forum 2004, 829-838 London, Ontario, Canada (June 1-4, 2004). | ||
[[Category:Alumni]] | [[Category:Alumni]] | ||
Latest revision as of 00:40, 30 January 2013
 | |
| Full name | MD Anwar Parvez |
| suzanparvez[at]hotmail.com | |
Contents |
Project Title
Experimental Studies of Mg-Al-Sr System (In collaboration with CANMET-MTL).
Project Summary
Magnesium (Mg) alloys can replace other heavier materials in order to reduce weight in automotive and aerospace applications. The current use of Mg in automotive application is restricted to non-critical parts because of their low creep resistance especially at elevated temperatures. Diecasted Mg-Al-Sr alloys, developed by Noranda, offer creep resistance, superior diecastibility, tensile strength and corrosion resistance compared to commercially available Mg alloys with rare earth additions. To control the process conditions for the specific alloy properties, knowledge of phase diagram is essential. Although this alloy system has a high potential for automotive application, few data points are available for the ternary Mg-Al-Sr system. Through the course of this research I will investigate this system experimentally using Differential Scanning Calorimetry (DSC) and Thermogravimetric Analysis (TGA). A comparison will also be made with the existing thermodynamic data. This new experimental data will also provide a base for further refinement of the thermodynamic model. In this research, emphasis is given on Mg-rich corner because of our interest in Mg-alloys. This research will be conducted in collaboration with CANMET-MTL, Ottawa.
Thesis
Published Works
[1] M. Medraj, M.A. Parvez, E. Essadiqi and Jian Li, “New Phases in the Mg-Al-Sr System”, Journal of Materials Science Forum, Vols. 539-543, 1620-1625 (2007).
[2] M. Medraj, R. Hammond, M.A. Parvez, R. A. L. Drew and W. T. Thompson, “neutron diffraction.pdf High Temperature Neutron Diffraction Study of the Al2O3-Y2O3 System”, Journal of the European Ceramic Society, Vol. 26, Issue 16, 3515-3524 (2006).
[3] M.A. Parvez, M. Medraj, E. Essadiqi, A. Muntasar and G. Dénès, "Experimental Study of the Ternary Magnesium-Aluminum-Strontium System", Journal of Alloys and Compounds, Vol. 402, Issue1-2, 170-185 (2005).
[4] M.A. Parvez, X. Wang, E. Essadiqi and M. Medraj, "Experimental Investigation of the Equlibria in Mg-Al-(Ca,Sr) Systems", 2005 TMS Annual Meeting - Magnesium Technology 2005, 179-184, San Francisco, California, USA (February 13-17, 2005).
[5] M.A. Parvez, E. Essadiqi and M. Medraj, "Thermal Analytical Investigations of Ternary Mg-Al-Sr System by DSC", Proc. CSME Forum 2004, 829-838 London, Ontario, Canada (June 1-4, 2004).
