steel research international

Cover image for Vol. 85 Issue 8

Special Issue: Science and Technology of Steelmaking

August 2014

Volume 85, Issue 8

Pages 1233–1316

Issue edited by: Piotr Scheller

  1. Cover Picture

    1. Top of page
    2. Cover Picture
    3. Masthead
    4. Contents
    5. Editorial
    6. Review
    7. Full Papers
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      Cover Picture: steel research int. 8/2014 (page 1233)

      Version of Record online: 1 AUG 2014 | DOI: 10.1002/srin.201470081

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      Cover Caption: This special issue of Steel Research International contains a selection of peer-reviewed manuscripts based on presentations at the 5th International Congress on the Science and Technology of Steelmaking. They cover different steps in the steelmaking technology as well as the basic research and its application in the industrial processes.

  2. Masthead

    1. Top of page
    2. Cover Picture
    3. Masthead
    4. Contents
    5. Editorial
    6. Review
    7. Full Papers
  3. Contents

    1. Top of page
    2. Cover Picture
    3. Masthead
    4. Contents
    5. Editorial
    6. Review
    7. Full Papers
  4. Editorial

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    2. Cover Picture
    3. Masthead
    4. Contents
    5. Editorial
    6. Review
    7. Full Papers
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      Preface (page 1239)

      Piotr R. Scheller

      Version of Record online: 10 MAR 2014 | DOI: 10.1002/srin.201300444

  5. Review

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    1. Environmental Metallurgy: Continuity or New Discipline? (pages 1240–1256)

      Jean-Pierre L. Birat

      Version of Record online: 21 FEB 2014 | DOI: 10.1002/srin.201300279

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      The environment is considered as an externality in metallurgy as it is often in economics. However, because of the present massive interaction of the anthroposphere with the biosphere, this may not longer be a viable option. A new field, environmental metallurgy, is emerging.

  6. Full Papers

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    2. Cover Picture
    3. Masthead
    4. Contents
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    7. Full Papers
    1. In Situ Quantification of Micro-Segregation that Occurs During the Solidification of Steel (pages 1257–1265)

      Stefan Griesser, Mark Reid, Robert Pierer, Christian Bernhard and Rian Dippenaar

      Version of Record online: 17 JAN 2014 | DOI: 10.1002/srin.201300024

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      We present a method for the in situ quantification of micro-segregation during the solidification of steel by using HTLSCM in combination with the concentric solidification technique. Investigations of the influence of different alloying elements and cooling rates on the solidification behavior of steel are conducted and benchmarked against computational modeling results.

    2. Visualization of the Flow in a Mold of Continuous Casting by Contactless Inductive Flow Tomography and Mutual Inductance Tomography (pages 1266–1273)

      Thomas Wondrak, Sven Eckert, Gunter Gerbeth, Frank Stefani, Klaus Timmel, Anthony J. Peyton, Natasa Terzija and Wuliang Yin

      Version of Record online: 4 DEC 2013 | DOI: 10.1002/srin.201300075

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      The contactless inductive flow tomography developed at the Helmholtz–Zentrum Dresden–Rossendorf is applied to a model of a continuous caster to measure the two-dimensional flow field in a slab caster mold. For Argon injection into the SEN transitions between double-roll and single-roll flows were observed.

    3. Optimizing Steelmaking System for Quality Steel Mass Production for Sustainable Future of Steel Industry (pages 1274–1282)

      Toshihiko Emi

      Version of Record online: 14 JUL 2014 | DOI: 10.1002/srin.201300278

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      Recent innovative developments in steelmaking and casting have contributed greatly to the evolution of much stronger and tougher steel materials at reduced cost and improved productivity to support industry. Key technologies for and optimization of the developments are discussed with a perspective for further progress.

    4. Use of Cold Liquid Metal Models for Investigations of the Fluid Flow in the Continuous Casting Process (pages 1283–1290)

      Klaus Timmel, Thomas Wondrak, Michael Röder, Frank Stefani, Sven Eckert and Gunter Gerbeth

      Version of Record online: 21 FEB 2014 | DOI: 10.1002/srin.201300034

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      The paper presents two experimental facilities for modeling the continuous casting process of steel. The facilities operate with low melting point liquid metals. A selection of results from both experimental setups will be shown, e.g., regarding the effect of an electromagnetic brake on the flow in the mould.

    5. Horizontal Single Belt Casting of Aluminum and Steel (pages 1291–1302)

      Roderick I. L. Guthrie and Mihaiela Isac

      Version of Record online: 6 APR 2014 | DOI: 10.1002/srin.201300105

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      We present ab-initio predictions of instantaneous heat fluxes from liquid metals freezing on a cooling substrate. We note that instantaneous heat fluxes depend on the material properties of the two phases and an interfacial gas phase, on surface topography and possible interfacial chemical reactions. We consider these in the HSBC (Horizontal Belt Casting) Process for the production of AA6111 aluminum alloy sheet for automobiles.

    6. Effect of Mg–Ti Deoxidation on the Formation Behavior of Equiaxed Crystals During Rapid Solidification of Iron Alloys (pages 1303–1309)

      Jun Seok Park and Joo Hyun Park

      Version of Record online: 25 JAN 2014 | DOI: 10.1002/srin.201300203

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      The effect of Mg–Ti deoxidation on the solidification structure of advanced high strength steel is investigated by observing the solidification structure and also the inclusion particles. Even with very low disregistry between delta iron and MgO (3.97%), the MgO itself does not work as an effective catalyst, indicating that there is another criterion for determining a good catalyst.

    7. Inclusion Development in Steel During Ladle Metallurgical Treatment - A Process Simulation Model – Part: Industrial Validation (pages 1310–1316)

      Piotr R. Scheller and Qifeng Shu

      Version of Record online: 25 JAN 2014 | DOI: 10.1002/srin.201300375

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      A comprehensive model for inclusion development in gas stirred ladles developed by the authors is validated in the industrial ladle treatment processes. It can be used for the process simulation and optimization. The important factors, like stirring intensity, reaction between steel and slag as well as refractory material, and the conditions needed for separation and floatation of non-metallic inclusions are taken into account

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