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Dr. Neslihan Dogan

Assistant Professor

Department of Materials Science and Engineering

Expertise:
High temperature materials processing, primary and secondary steelmaking, reaction kinetics
Areas of Specialization:
Research Clusters:

Overview

Dr Dogan research interests lie in the area of process metallurgy. Her research has focused on kinetics and thermodynamics of chemical reactions in steelmaking process using modelling and high temperature experimental techniques. Dr Dogan and her research team are currently investigating ways to optimise the current practices during steel refining processes and suggest new techniques to produce the third generation steel to help steelmakers address some of the issues in environmental and economic sustainability such as energy intensity, material efficiency and alternative production methods.

Current Projects

  1. Fundamentals of Inclusion Removal by Slag
  2. Inclusion modification by Calcium Treatment in Liquid Steel Processing
  3. Experimental Investigation of Inclusion Formation in High Manganese Steel Production
  4. Comprehensive Kinetic and Modelling Study of Basic Oxygen Steelmaking
  5. Optimization & Control of Basic Oxygen Steelmaking

Education

B.Eng, Yildiz Technical University
PhD, Swinburne University

Publications

Recent

Kezhuan Gu, Neslihan Dogan, Kenneth S. Coley “The Influence of Sulfur on Dephosphorization Kinetics between Bloated Metal Droplets and Slag Containing FeO” Metallurgical and Materials Transaction B, 2017, vol 48B (5), pp 2343-2353.

Kezhuan Gu, Neslihan. Dogan, Kenneth S. Coley “The Dynamic Oxygen Potential Between Iron-Carbon Droplets and Oxidizing Slags”, Metallurgical and Materials Transactions B, 2017, vol 48B (5), pp 2595-2606.

Wangzhong Mu, Neslihan Dogan, Kenneth S. Coley: “In-Situ Observation Experiments and Model Validation”, Metallurgical and Materials Transactions B, 2017, vol 48B (5), pp 2379-2388.

Wangzhong Mu, Neslihan Dogan, Kenneth S. Coley: “Agglomeration of Non-Metallic Inclusions at the Steel/Ar Interface: Model Application”, Metallurgical and Materials Transactions B, 2017, vol 48B (4), pp 2092-2103.

Kezhuan Gu, Neslihan Dogan, Kenneth S. Coley “Dephosphorization Kinetics between Bloated Metal Droplets and Slag Containing FeO: The Influence of CO Bubbles on the Mass Transfer of Phosphorus in the Metal” Metallurgical and Materials Transaction B, (published online, September 2017).

Hamed Abdeyazdan, Brian J. Monaghan, Raymond J. Longbottom, Muhammad A. Rhamdhani, Neslihan Dogan, and Michael W. Chapman: “Interfacial tension in the CaO-Al2O3-SiO2-(MgO) liquid slag-solid oxide systems” Metallurgical and Materials Transaction B, 2017, vol 48B (4), pp 1970-1980.

Ameya Kadrolkar, Nils Andersson, Neslihan Dogan: “A Dynamic Flux Dissolution Model for Oxygen Steelmaking” Metallurgical and Materials Transactions B, (published online in August 18 2016), 2017, 48B(1): pp. 99-112.

Hamed Abdeyazdan, Neslihan Dogan, Muhammad A. Rhamdhani, Michael W. Chapman and Brian J. Monaghan: “Dynamic wetting of CaO-Al2O3-SiO2-MgO liquid oxide on MgAl2O4 spinel” Metallurgical and Materials Transaction B, 2015, vol 46B, pp 208-219.

Brian J. Monaghan, Hamed Abdeyazdan,  Neslihan Dogan,  Muhammad A. Rhamdhani,  Raymond J. Longbottom,  Michael W. Chapman: “Effect of Slag Composition on Wettability of Oxide Inclusions” ISIJ International, 0, 2015.

Neslihan Dogan, Raymond J. Longbottom, Mark H. Reid, Michael W. Chapman, P. Wilson, Les Moore and Brian J. Monaghan: “Morphology and composition changes of spinel (MgAl2O4) inclusions in Steel”, Ironmaking&Steelmaking, 2015, 42(3): pp. 185-193.

Neslihan Dogan, Geoffrey A. Brooks, and Muhammad A. Rhamdhani: ‘Comprehensive Model of Oxygen Steelmaking Part 1: Model Development and Validation’, ISIJ International, 2011, 51(7): pp. 1086–1092.

Neslihan Dogan, Geoffrey A. Brooks, and Muhammad A. Rhamdhani: ‘Comprehensive Model of Oxygen Steelmaking Part 2: Application of Bloated Droplet Theory for Decarburization in Emulsion Zone’, ISIJ International, 2011, 51(7): pp. 1093–1101.

Neslihan Dogan, Geoffrey A. Brooks, and Muhammad A. Rhamdhani: ‘Comprehensive Model of Oxygen Steelmaking Part 3: Decarburization in Impact Zone’, ISIJ International, 2011, 51(7): pp.1102–1109.

Neslihan Dogan, Geoffrey A. Brooks, and Muhammad A. Rhamdhani: ‘Kinetics of Flux Dissolution in Oxygen Steelmaking’, ISIJ International, 2009, 49 (10): pp. 1474-1482.

Neslihan Dogan, Geoffrey A. Brooks, and Muhammad. A. Rhamdhani: ‘Analysis of Droplet Generation in Oxygen Steelmaking’, ISIJ International, 2009, 49 (1): pp. 24-28.