The Centre for Mass and Thermal Transport has a very strong research capability in the theory and simulation of mass and thermal transport in a wide variety

Centre for
MASS AND THERMAL TRANSPORT IN ENGINEERING MATERIALS

Publications

Edited Book Series and Journals

  1. G.E. Murch, Founder and Editor-in-Chief of Materials Science Forum, 1984-present.
  2. G.E. Murch,Honorary Editor (2011-present) and formerly Editor-in-Chief (1986-2010) of Defect and Diffusion Forum.
  3. G.E. Murch, Founder and Editor-in-Chief of Solid State Phenomena, 1986-present.
  4. G.E. Murch, I.V. Belova and A. Oechsner, Founders and Editors-in-Chief of Diffusion Foundations, 2013-present.

Authored Books

  1. T. Fiedler, Numerical and Experimental Investigation of Hollow Sphere Structures in Sandwich Panels. TTP, Zürich, Switzerland (2008).

Edited Books

2013

  1. Diffusion in Nanosystems, edited by A Öchsner, I V Belova and G E Murch, special book-length issue (Volume 21) of the Journal of Nano Research, 2013.
  2. Diffusion in Solids and Liquids VIII, edited by A Öchsner, G E Murch, A Shokuhfar and J M P Q  Delgado (TTP, Zürich, 2013).
  3. Heat Transfer Processes in Engineering Materials, edited by edited by A Öchsner, I.V. Belova and G E Murch, (TTP, Zürich, 2013).

2012

  1. Diffusion in Solids and Liquids VII, edited by A Öchsner, G E Murch, A Shokuhfar and J M P Q  Delgado (TTP, Zürich, 2012).
  2. Diffusion in Nanoparticles, edited by A Öchsner, I V Belova and G E Murch, special book-length issue (Volume 16) of the Journal of Nano Research, 2012.
  3. Recent Advances in Mass Transport in Materials, edited A Öchsner and G E Murch, (TTP, Zürich, 2012).

2011

  1. New Developments of Nanostructured Particles and Materials. Special section of Volume 7(3) of the Journal of Biomedical Nanotechnology edited by A Öchsner, I V Belova and G E Murch, 2011.
  2. Diffusion in Nanomaterials, edited by I V Belova, A Öchsner and G E Murch, special book-length issue (Volume 13) of the Journal of Nano Research, 2011.
  3. Diffusion in Solids and Liquids VI, edited by A Öchsner, G E Murch, A Shokuhfar and J M P Q  Delgado (TTP, Zürich, 2011).

2010

  1. Heat Transfer in Multi-Phase Materials, edited by A Öchsner and G E Murch (Springer, 2010).
  2. Diffusion in Solids and Liquids V, edited by A Öchsner, G E Murch, A Shokuhfar and J M P Q  Delgado (TTP, Zürich, 2010).
  3. Atomic Transport in Nanomaterials, edited by I V Belova, A Öchsner and G E Murch, special book-length issue (Volume 11) of the Journal of Nano Research, 2010.

2009

  1. Diffusion in Nanomaterials, edited by I V Belova, G E Murch and A Öchsner, special book-length issue (Volume 7) of the Journal of Nano Research, 2009.
  2. Diffusion in Solids and Liquids IV, edited by A Öchsner, G E Murch and A Shokuhfar (TTP, Zürich, 2009).

2008

  1. Cellular and Porous Materials. Thermal Properties: Prediction and Simulation, edited by A Öchsner, G E Murch and J S de Lemos (Wiley-VCH, Weinheim, 2008).
  2. Theory, Modeling and Numerical Simulation of Multi-Physics Behavior, edited by V Tikare, G E Murch, F Soisson and J K Kang, (TTP, Zürich, 2008).
  3. Diffusion and Diffusional Phase Transformations in Alloys, edited by D. Beke, A. Gusak, G.E. Murch and J. Philibert (TTP, Zürich, 2008).
  4. Diffusion in Solids and Liquids III, edited by A Öchsner and G E Murch (TTP, Zürich, 2008).

2007

  1. Multi-Scale Kinetic Modelling of Materials, edited by  R Koszubski, G E Murch and P Zięba, (TTP, Zürich, 2007).

 

Refereed International Journal Papers including Book Chapters and Reviews

2014

  1. Mechanical Properties of Aluminium Foam Derived from Infiltration Casting of Salt Dough, T Fiedler, M A Sulong, V Mathier, I V Belova, C Younger and G E Murch, Computational Materials Science, 81, pp 246-248 (2014).
  2. T.Fiedler, N. White and K. Hooman, On the electrical and thermal contact resistance of metal foam International Journal of Heat and Mass Transfer. International Journal of Heat and Mass Transfer, accepted for publication and in press (2014).
  3. Diffusion Kinetics in Dilute Binary Alloys with the h.c.p. Crystal Structure, A.R. Allnatt, I.V. Belova and G.E. Murch, Philosophical Magazine, accepted for publication and in press (2014).
  4. Strengthening Mechanism of PDLLA Coated Titania Foam, T Fiedler, M Fisher, J A Roether, I V Belova, T Samtleben, T Bernthaler, G E Murch and A R Boccaccini, Mechanics of Materials, accepted for publication and in press (2014).
  5. Molecular Dynamics Prediction of Phonon-Mediated Thermal Conductivity of fcc Cu, A V Evteev, L Momenzadeh, E V Levchenko, I V Belova and G E Murch, Philosophical Magazine, accepted for publication and in press (2014).

2013

  1. A Structural Model for Surface-Enhanced Stabilization in Some Metallic Glass Formers, E V Levchenko, A V Evteev, A R Yavari, D V Louzguine-Luzgin, I V Belova and G E Murch, Philosophical Magazine Letters, 93, pp 50-57 (2013).
  2. Experimental Analysis on the Thermal Anisotropy of Syntactic Hollow Sphere Structures, T Fiedler, H S Richards, I V Belova and G E Murch, Experimental Thermal and Fluid Science, 44, pp 637-641 (2013).
  3. Self Diffusion and 'Order-Order' Kinetics in B2-ordering AB Binary Systems with a Tendency for Triple-Defect Formation: Monte Carlo Simulation, P Sowa, R Kozubski, A Biborski, E V Levchenko, A V Evteev, I V Belova, G E Murch and V Pierron-Bohnes, Philosophical Magazine, 93, pp1987-1998 (2013).
  4. Phonon Thermal Conductivity of FCC Cu by Molecular Dynamics Simulation, L Momenzadeh, A V Evteev, E V Levchenko, I V Belova, G E Murch and Y-H. Sohn, Chapter 20 (pp169-184) in Heat Transfer Processes in Engineering Materials edited by A Öchsner, I V Belova and G E Murch, (TTP, Zurich, 2013).
  5. On the Mechanical Properties of Sintered Metallic Fibre Structures, C Veyhl, T Fiedler, U Jehring, O Andersen, T Bernthaler, I V Belova and G E Murch, Materials Science and Engineering A. 562, pp 83-87 (2013).
  6. Interdiffusion in Intermetallics, I V Belova and G E Murch, Metallurgical and Materials Transactions A, 44, pp 4417-4421 (2013).
  7. A Comparative Study of Heat Sink Composites for Temperature Stabilisation, T Fiedler, J. Loosemore, I V Belova and G E Murch, Applied Thermal Engineering, 58, pp314-320 (2013).
  8. Simultaneous Measurement of Tracer and Interdiffusion Coefficients: an Isotopic Phenomenological Formalism for the Binary Alloy, I V Belova, N S Kulkarni, Y H Sohn and G E Murch, Philosophical Magazine, 93, pp 3515-3526 (2013).
  9. Energy Cost of Heat Activating Serpentinites for CO2 Storage by Mineralisation, R D Balucan, B Z Dlugogorski, E M Kennedy, I V Belova and G E Murch, International Journal of Greenhouse Gas Control, 17, pp 225-239 (2013).
  10. Molecular Dynamics Simulation of Alloying in an Al-coated TI Nanoparticle, E.V. Levchenko, A.V Evteev, T Lorscheider, I V Belova and G.E. Murch, Computational Materials Science, 79, pp 316-325 (2013).
  11. M. Vesenjak, M. Borovinšek, T.Fiedler, Y. Higa and Z. Ren, Structural characterisation of advanced pore morphology (APM) foam elements. Materials Letters 110 (2013) 201-203.

2012

  1. Molybdenum Disilicide - Diffusion, Defects, Diffusion Correlation and Creep, H Mehrer, H-E Schaefer, I V Belova and G E Murch, Chapter 7 (22 pages) in Recent Advances in Mass Transport in Materials, edited by A Öchsner and G E Murch (TTP, Zürich, 2012).
  2. First Principles Calculations of a Corrugated Anatase TiO­2 Surface, F.M. Hossain, A.V. Evteev, I.V. Belova, J Nowotny and G E Murch, Computational Materials Science, 51, pp 78-82 (2012).
  3. Structural, Electronic, and Optical Properties of Titania Nanotubes, F M Hossain, A V Evteev, I V Belova, J Nowotny and G E Murch, Advances in Applied Ceramics, 111, pp 72-93 (2012). Invited.
  4. Molecular Dynamics Simulation of Alloying in a Ti-Coated Al Nanoparticle, E V Levchenko, A V Evteev, G G Löwisch, I V Belova and G E Murch, Intermetallics, 22, pp 193-202  (2012).
  5. A Thermal Analysis on Self-Propagating High Temperature Synthesis in Joining Technology, T Fiedler, I V Belova, S Broxtermann and G E Murch, Computational Materials Science, 53, pp 251-257 (2012).
  6. On the Anisotropy of Lotus-Type Porous Copper, T Fiedler, C Veyhl, I V Belova, T Bernthaler, M Merkel, M Tane, H Nakajima, A Öchsner and G E Murch, Advanced Engineering Materials, 14, pp 144-152 (2012).
  7. The Harrison Diffusion Kinetics Regimes in Solute Grain Boundary Diffusion, I V Belova, T Fiedler, N Kulkarni and G E Murch, The Philosophical Magazine, 92, pp1748-1763 (2012).
  8. On the Thermal Conductivity of Sintered Metallic Fibre Structures, C J W Veyhl, I V Belova, G E Murch and T Fiedler, International Journal for Heat and Mass Transfer, 56, pp 2440-2448 (2012).
  9. Critical Analysis of the Experimental Determination of the Thermal Resistance of Metal Foams,  T Fiedler, I V Belova and G E Murch, International Journal of Heat and Mass Transfer, 55, pp 4415-4420 (2012).
  10. Molecular Dynamics Simulation of Surface Segregation, Diffusion and Reaction Phenomena in Equi-Atomic Ni-Al Systems, A V Evteev, E V Levchenko, I V Belova and G E Murch, Physics of Metals and Metallography, 113, pp 1202-1243 (2012).  (Invited).
  11. Thermal Conductivity Computations of Sintered Hollow Sphere Structures, C Veyhl, T Fiedler, T Herzig, A Öchsner, T Bernthaler, I V Belova and G E Murch, Metals, 2, pp 113-121 (2012).
  12. A Lattice Monte Carlo Analysis on Chemical Reaction with Moving Boundary, T Fielder, I V Belova, A Öchsner and G E Murch, Computational Thermal Sciences, 4, pp 131-135 (2012).
  13. m-CT based Finite Element Analysis on Imperfections in Open-Celled Metal Foam: Mechanical Properties, T Fiedler, I V Belova and G E Murch, Scripta Materialia, 67, pp 455-458 (2012).
  14. Tailoring Elastic Properties of PLGA/TiO2 Biomaterials, T Fiedler, I V Belova, G E Murch, P Rother and A Boccaccini, Computational Materials Science. 61, pp 283-286 (2012).
  15. Structural Stability and Energy of a Pd2Ni Nanofilm: Ab Initio Calculations, E V Levchenko, A V Evteev, F M Hossain, I V Belova and G E Murch, Journal of Nanoscience and Nanotechnology, 12, pp 8205-8210 (2012).
  16. M. Vesenjak, C. Veyhl and T.Fiedler, Analysis of anisotropy and strain rate sensitivity of open-cell metal foam. Materials Science and Engineering A 541 (2012) 105-109.

2011

  1. Thermal Analysis of Aluminium Foam Based on Micro-Computed Tomography, C J W Veyhl, I V Belova, G E Murch, A Öchsner and T Fiedler, Materialwissenschaft und Werkstofftechnik (Materials Science and Engineering Technology), 42, pp 350-355 (2011). 
  2. Finite Element Analysis of the Mechanical Properties of Cellular Aluminium Based on Micro-Computed Tomography, C J W Veyhl, I V Belova, G E Murch and T Fiedler, Materials Science and Engineering A, 528, pp 4550-4555 (2011).
  3. First-Principles Study of the Electronic, Optical and Bonding Properties in Dolomite, F.M. Hossain, B Z  Dlugogorski, E M Kennedy, I V Belova and G E Murch, Computational Materials Science, 50, pp 1037-1042 (2011).
  4. Computer Simulation of Diffusion and Reaction in Metallic Nanoparticles, A V Evteev, E V Levchenko, I V Belova and G E Murch, Chapter 2 in New Frontiers of Nanoparticles and Nanocomposite Materials: Novel Principles and Techniques, edited by A Öchsner and A Shokuhfar (Springer, 2011). (Invited.)
  5. Numerical Simulation of Knudsen Diffusion in Metallic Foam, T Fiedler, I V Belova and G E Murch, Computational Materials Science, 50, pp 1795-1799 (2011).
  6. A Comparative Study of Knudsen Diffusion in Cellular Metals, T Fiedler, I V Belova and G E Murch, Computational Materials Science, 50, pp 2666-2670 (2011).
  7. Diffusion Correlation Effects of Molybdenum and Silicon in Molybdenum Disilicide, I V Belova, H Mehrer and G E Murch, Philosophical Magazine, 91, pp 3727-3743 (2011).
  8. Ab Initio Electronic Structure, Optical, Dielectric and Bonding Properties on Lizardite-1T, F M Hossain, B Z Dlugogorski, E M Kennedy, I V Belova and G E Murch, Computational Materials Science, 50, pp 1725-1730 (2011).
  9. Analysis of Anisotropic Behaviour of Thermal Conductivity in Cellular Metals, I.V. Belova, C. Veyhl, T. Fiedler and G.E. Murch, Scripta Materialia, 65, pp 436-439 (2011). 
  10.  Molecular Dynamics Simulation of Surface Segregation in a (110) B2-NiAl Thin Film, E.V. Levchenko, A V Evteev, R Kozubski, I V Belova and G E  Murch, Physical Chemistry- Chemical Physics, 13, pp 1214-1221 (2011).
  11. Molecular Dynamics Assessment of the Time-Temperature-Transformation Diagram for Crystallization of an Undercooled Liquid Ni50Al50 Alloy, E V Levchenko, A V Evteev, I V Belova and G E  Murch, Acta Materialia, 59, pp 6412-6419 (2011).
  12.  S. M. H. Hosseini, A. Öchsner and T.Fiedler, Numerical investigation of the initial yield surface of perforated hollow sphere structures (PHSS) in a primitive cubic pattern. Finite Elements in Analysis and Design 47 (2011) 804-811.

2010

  1. On the Mesh Dependence of Non-Linear Mechanical Finite Element Analysis, C  Veyhl, I V Belova, G E Murch, A  Öchsner, T Fiedler, Finite Elements in Analysis and Design, 46, pp 371-378 (2010).
  2. Elastic Finite Element Analysis on Cross-Sections of Random Hollow Sphere Structures, T Fiedler, H. S Kim, I V Belova, G E Murch, A Öchsner and S W Sloan, Materialwissenschaft und Werkstofftechnik (Materials Science and Engineering Technology), 41, pp 250-256 (2010).
  3. Limits of the Ratios of Tracer Diffusivities for Diffusion by Vacancy-Pairs: Application to Compound Semiconductors, I V Belova, D Shaw and G E Murch, Journal of Applied Physics, 106 113707 (2009).
  4. Reaction of a Ni-Coated Al Nanoparticle to Form B2-NiAl: A Molecular Dynamics Study, A V Evteev, E V Levchenko, D P Riley, I V Belova and G E Murch, Philosophical Magazine Letters, 89, pp 1362-3036 (2009).
  5. A Lattice Monte Carlo Analysis on Coupled Reaction and Mass Diffusion, T Fiedler, I V Belova and G E Murch, Computational Materials Science, 47, pp 826-831 (2010).
  6. Parametric Analysis of the Classification of Harrison Kinetics Regimes in Grain Boundary Diffusion, I.V. Belova, G.E. Murch and T. Fiedler, Defect and Diffusion Forum, 297/301, pp 1226-1231 (2010).
  7. The Nature of the Vacancy-Wind Effect Occurring in Diffusion Via Six-Jump-Cycles in B2 Intermetallics, I V Belova and G E Murch, Defect and Diffusion Forum, 297/301, pp 1218-1225 (2010).
  8. Molecular Dynamics Simulation of the Alloying Reaction in Al-Coated Ni Nanoparticles, E V Levchenko, A V Evteev, D P Riley, I V Belova and G E Murch, Computational Materials Science, 47 (2010) 712–720.
  9. Electronic, Optical and Bonding Properties of MgCO3, F M Hossain, B Z Dlugogorski, E M Kennedy, I V Belova and G E Murch, Solid State Communications, 150, pp 848-851 (2010).
  10. A Lattice Monte Carlo Analysis of Thermal Transport in Phase Change Materials.T. Fiedler, I.V. Belova, A Öchsner, G E Murch, Defect and Diffusion Forum, 297/301 (2010), pp 154-161.
  11. A Lattice Monte Carlo Analysis on Thermal Diffusion in Syntactic Hollow-Sphere Structures. J. Farnsworth, G. E. Murch, I. V. Belova, A. Öchsner, T. Fiedler, Materialwissenschaft und Werkstofftechnik (Materials Science and Engineering Technology), 41, pp 283-886 (2010).
  12. Lattice Monte Carlo Analysis of Thermal Diffusion in Multi-Phase Materials, T. Fiedler, I.V. Belova, A. Öchsner and G.E. Murch, Chapter 10 in Heat Transfer in Multi-phase Materials, edited by A Öchsner and G E Murch (Springer, 2010).
  13. Numerical Characterization of Anisotropic Heat Sink Composites, T Fiedler, G E Murch, T Bernthaler and I V Belova, Materials Science Forum, 654-656 pp 1500-1503 (2010).
  14. Electronic and Optical Properties of Anatase TiO2 Nanotubes, F.M. Hossain, A.V. Evteev, I.V. Belova, J. Nowotny and G.E. Murch, Computational Materials Science, 48, pp 854-858 (2010).
  15. Lattice Monte Carlo Analyses of Thermal Diffusion in Laminar Flow, T. Fiedler, I.V. Belova and G.E. Murch, World Academy of Science, Engineering and Technology, 63, pp 306-310 (2010). (Invited.)
  16. Solving Complex Thermal and Mass Transport Problems with the Lattice Monte Carlo Method, T. Fiedler, G.E. Murch and I.V. Belova, Materials Science Forum, 654-656 pp 1476-1481 (2010).
  17. Molecular Dynamics Study of Density, Surface Energy and Self-Diffusion in a Liquid Ni50Al50 Alloy, E V Levchenko, A V Evteev, I V Belova and G E Murch, Computational Materials Science, 50, pp 331-337 (2010).
  18. Theoretical and Lattice Monte Carlo Analyses on Thermal Conduction in Cellular Metals, T Fiedler, I V Belova and G E Murch, Computational Materials Science, 50, pp. 503-509 (2010).
  19. Molecular Dynamics Simulation of the Thermophysical Properties of an Under-Cooled Liquid NiAl Alloy, E V Levchenko, A V Evteev, D R Beck, I V Belova and G E Murch, Computational Materials Science, 50, pp 465-473 (2010).
  20. S. M. H. Hosseini, A. Öchsner, M. Merkel and T.Fiedler, Predicting the Effective Thermal Conductivity of Perforated Hollow Sphere Structures (PHSS). in: J. M. Delgado, Current Trends in Chemical Engineering. (2010) 131-177.
  21. T.Fiedler, A. Öchsner and J. Grácio, Numerical investigations on the mechanical properties of adhesively bonded hollow sphere structures. Journal of Composite Materials 44 (2010) 1165-1178.
  22. S. M. H. Hosseini, A. Öchsner and T.Fiedler, Numerical prediction of the effective thermal conductivity of open- and closed-cell foam structures. Defect and Diffusion Forum 297-301 (2010) 1210-1217.

2009

  1.  Numerical Analyses of the Thermal Conductivity of Random Hollow Sphere Structures, T Fiedler, R Löffler, T Bernthaler, R Winkler, I V Belova, G E Murch and A Öchsner, Materials Letters, 63, pp 1125-1127 (2009).
  2. Molecular Dynamics Simulation and Theoretical Analysis of Carbon Diffusion in Cementite, A V Evteev, E V Levchenko, I V Belova and G E Murch, Acta Materialia, 57, pp 846–853 (2009).
  3. Relations between Tracer and Chemical Diffusion Coefficients, I V Belova and G E Murch, Journal of Functional Materials (Materialovedenie), 9, pp 39-46 (2008). In Russian. (Invited.)
  4. Carbon Diffusion in Cementite: A Molecular Dynamics Study, E V Levchenko, A V Evteev, I V Belova and G E Murch, Defect and Diffusion Forum, 283/286, pp 24-29 (2009).
  5. Non-linear Calculations of Transient Thermal Conduction in Composite Materials, T Fiedler, I V Belova, A Öchsner and G E Murch, Computational Materials Science, 45, pp 434-438 (2009).
  6. Formation of a Hollow Binary Alloy Nanosphere: A Kinetic Monte Carlo Study, E V Levchenko, A V Evteev, I V Belova and G E Murch, Journal of Nano Research, 7, pp 11-17 (2009).
  7. Investigation of Harrison Type-A, B and Intermediate AB Kinetics Regimes in Grain Boundary Diffusion, I V Belova and G E Murch, Defect and Diffusion Forum, 283/286, pp 697-704 (2009).
  8. The Synthesis, Stability and Shrinkage of Hollow Nanoparticles: An Overview, I V Belova, A V Evteev, E V Levchenko and G E Murch, Journal of Nano Research, 11, pp 19-26 (2009).
  9. Computed Tomography Based Finite Element Analysis of the Thermal Properties of Cellular Aluminium, T Fiedler, E Solorzano, F Garcia-Moreno, A Öchsner, I V Belova and G E Murch, Materialwissenschaft und Werkstofftechnik (Materials Science and Engineering Technology), 40, pp 139-143 (2009).
  10. Lattice Monte Carlo and Experimental Analyses of the Thermal Conductivity of Random Shaped Cellular Aluminium, T Fiedler, E Solorzano, F Garcia-Moreno, A Öchsner, I V Belova and G E Murch, Advanced Engineering Materials, 11, pp 843-847 (2009).
  11. Composition Effect on Shrinkage of Hollow Binary Alloy Nanospheres, A V Evteev, E V Levchenko, I V Belova and G E Murch, Defect and Diffusion Forum, 289/292, pp 665-672 (2009).
  12. Surface-Sandwich Segregation Phenomena in Bimetallic Ag-Ni and Pd-Ni Nanoparticles: A Molecular Dynamics Study, A V Evteev, E V Levchenko, I V Belova and G E Murch, Defect and Diffusion Forum, 289/292, pp 657-664 (2009).
  13. Interdiffusion and Surface-Sandwich Ordering in Initial Ni-core–Pd-shell Nanoparticle, A V Evteev, E V Levchenko, I V Belova and G E Murch, Physical Chemistry-Chemical Physics, 11, pp 3233-3240 (2009).
  14. Analysis of Kinetics Regimes in Grain Boundary Diffusion, I V Belova and G E Murch, Philosophical Magazine, 89, pp 665-675 (2009).
  15. A Review on Thermal Lattice Monte Carlo Analysis, T Fiedler, I V Belova, A Öchsner and G E Murch in Progress in Chemical Engineering, edited by J. Delgado (Studium Press LLC Houston, 2010).
  16. Lattice-Based Walks and the Monte Carlo Method for Addressing Mass, Thermal and Elasticity Problems, I V Belova, G E Murch, T Fiedler and A Öchsner, Defect and Diffusion Forum, 283/286, pp 13-23 (2009).
  17. Recent Progress in the Simulation of Diffusion Associated with Hollow and Bi-Metallic Nanoparticles, G E Murch, A V Evteev, E V Levchenko and I V Belova, Diffusion Fundamentals, 11, pp1-22 (2009).  
  18. Reaction of a Ni-coated Al Nanoparticle to Form B2-NiAl: a Molecular Dynamics Study , A V Evteev, E V Levchenko, D P Riley, I V Belova and G E Murch, Philosophical Magazine, 89, pp 815-830 (2009).
  19. Electronic, Optical and Bonding Properties of CaCO3 Calcite, F.M. Hossain, G.E. Murch, I.V. Belova and B. D. Turner, Solid State Communications, 149, 1201-1203 (2009).
  20. A Refined Finite Element Analysis on the Thermal Conductivity of Perforated Hollow Sphere Structures. T Fiedler, S M H Hosseini, I V Belova, G E Murch, A Öchsner, Computational Materials Science, 47, pp. 314-319 (2009).
  21. T.Fiedler and A. Öchsner, Elastic-Plastic Properties: Simulation and Experiment. in: A. Öchsner and C. Augustin, Multifunctional Metallic Hollow Sphere Structures, Manufacturing, Properties and Application. (2009) 31-46.
  22. A. Öchsner and T.Fiedler, Geometrical Properties of Hollow Sphere Structures.in: A. Öchsner and C. Augustin, Multifunctional Metallic Hollow Sphere Structures, Manufacturing, Properties and Application. (2009) 47-70.
  23. M. Vesenjak, T.Fiedler, Z. Ren and A. Öchsner, Dynamic Behaviour of Metallic Hollow Sphere Structures. in: A. Öchsner and C. Augustin, Multifunctional Metallic Hollow Sphere Structures, Manufacturing, Properties and Application. (2009) 137-158.
  24. M. Vesenjak, Z. Ren, T.Fiedler and A. Öchsner, Impact behavior of composite hollow sphere structures. Journal of Composite Materials 43 (2009) 2491-2505.
  25. Exploration of the Transition from Harrison Type-A Kinetics to Type-B Kinetics Regimes in Grain Boundary Diffusion, I V Belova and G E Murch, Defect and Diffusion Forum, 273/276, pp 425-430 (2008).

2008

  1. Diffusion Kinetics Analysis of Cation Diffusion in YSZ and LSGM, I V Belova and G E Murch, D Samuelis and M Martin, Defect and Diffusion Forum, 273/276, pp 445-459 (2008).
  2. Visualization of the Vacancy-Wind Effect Occurring in Chemical Diffusion and Ionic Conductivity in Solids, I V Belova and G E Murch, Defect and Diffusion Forum, 273/276, pp 431-444 (2008).
  3. Calculation of the Effective Thermal Conductivity in a Model of Syntactic Metallic Hollow Sphere Structure Using Monte Carlo Method, T Fiedler, A Öchsner, I V Belova and G E Murch, Defect and Diffusion Forum, 273/276, pp 216-221 (2008).
  4. Thermal Conductivity Enhancement of Compact Heat Sinks Using Cellular Metals, T Fiedler, A Öchsner, I V Belova and G E Murch, Defect and Diffusion Forum, 273/276, pp 222-226 (2008).
  5. Theoretical Studies of Diffusion Kinetics in Austenite, A V Evteev, E V Levchenko, I V Belova and G E Murch, Defect and Diffusion Forum, 273/276, pp 455-460 (2008).
  6. Finite Element Modelling of Oxygen Diffusion and Segregation at Interfaces in Ag-MgO Composite: Parametric Studies, A Öchsner, I V Belova and G E Murch, Defect and Diffusion Forum, 273/276, pp 461-446 (2008).
  7. Theoretical Analysis and Atomistic Modelling of Diffusion and Stability of Pure Element Hollow Nanospheres and Nanotubes, A V Evteev, E V Levchenko, I V Belova and G E Murch, Defect and Diffusion Forum, 277, pp 21-27 (2008).
  8. Modelling of Formation of Pd-Ni Alloy Nanoparticles by Interdiffusion, A V Evteev, E V Levchenko, I V Belova and G E Murch, Defect and Diffusion Forum, 277, pp 207-213 (2008).
  9. Atomic Mechanism of Carbon Diffusion in Cementite, A V Evteev, E V Levchenko, I V Belova and G E Murch, Defect and Diffusion Forum, 277, pp 101-107 (2008).
  10. The Lattice Monte Carlo Method for Solving Phenomenological Mass and Heat Transport Problems, I V Belova, G E Murch, T Fiedler, A Öchsner, Defect and Diffusion Forum, 279, pp 13-23 (2008).
  11. Thermal Properties of Composite Materials and Porous Media: Lattice-Based Monte Carlo Approaches, G E Murch and I V Belova, in Cellular and Porous Materials. Thermal Properties Simulation and Prediction, edited by A Öchsner, G E Murch and J S de Lemos (Wiley – VCH; Weinheim) 2008.
  12. Recent Advances in the Prediction of the Thermal Properties of Syntactic Metallic Hollow Sphere Structures, T Fiedler, A Öchsner, I V Belova and G E Murch, Advanced Engineering Materials, 10, pp 361-365 (2008).
  13. Shrinking Kinetics by Vacancy Diffusion of Hollow Binary Alloy Nanospheres Driven by the Gibbs-Thomson Effect, A V Evteev, E V Levchenko, I V Belova and G E Murch, Philosophical Magazine, 88, pp1524-1541 (2008).
  14. In-Diffusion and Out-Diffusion of Oxygen from a Composite Containing Random Traps, I V Belova, G E Murch, Solid State Phenomena, 139, pp 35-40 (2008).
  15. Optical Properties of Anatase and Rutile Titanium Dioxide: Ab Initio calculations for Pure and Anion-Doped Materials, F M Hossain, G E Murch, L Sheppard and J Nowotny, Journal of Physics and Chemistry of Solids, 69,pp 1820-1828 (2008).
  16. A. Öchsner and T.Fiedler, Effective Thermal Properties of Hollow-Sphere Structures: A Finite Element Approach. (2008) 31-71.
  17. T.Fiedler and A. Öchsner, On the anisotropy of adhesively bonded metallic hollow sphere structures. Scripta Materialia 58 (2008) 695-698.
  18. T.Fiedler and A. Öchsner, Experimental analysis of the flexural properties of sandwich panels with cellular core materials. Materialwissenschaft und Werkstofftechnik 39 (2008) 121-124.
  19. T.Fiedler, E. Solórzano and A. Öchsner, Numerical and experimental analysis of the thermal conductivity of metallic hollow sphere structures. Materials Letters 62 (2008) 1204-1207.
  20. M. Vesenjak, T.Fiedler, Z. Ren and A. Öchsner, Behaviour of syntactic and partial hollow sphere structures under dynamic loading. Advanced Engineering Materials 10 (2008) 185-191.

2007

  1. Interdiffusion Data in Multicomponent Alloys as a Source of Quantitative Fundamental Diffusion Information, I. V. Belova, and G. E. Murch, Defect and Diffusion Forum, 263, pp 1-10 (2007).
  2. Collective and Tracer Diffusion via a Defect Cluster in LSGM, I. V. Belova, D. Samuelis, M. Martin and G. E. Murch, Defect and Diffusion Forum, 263, pp 81-86 (2007).
  3. Expressions for Vacancy-Wind Factors Occurring in Interdiffusion in Ternary and Higher Order Alloys, I V Belova and G E Murch, Acta Materialia, 55, pp 627-634 (2007).
  4. Analysis of the Demixing of Yttria-Stabilized Zirconia in an Electric Field for Different Diffusion Mechanisms, I V Belova, D Samuelis, M Martin and G E Murch, Philosophical Magazine, 87, pp 1447-1463 (2007).
  5. Calculation of the Effective Thermal Conductivity in Composites Using Finite Element and Monte Carlo Methods, T. Fiedler, A. Öchsner, N. Muthubandara, I V Belova and G E Murch, Materials Science Forum, 553, pp 51-56 (2007).
  6. Reactivity of Ideal and Defected Rutile TiO2 (110) Surface with Oxygen, F M Hossain, G E Murch, L Sheppard and J Nowotny, Advances in Applied Ceramics, 106, pp 95-100 (2007).
  7. Bridging Different Length and Time Scales in Diffusion Problems Using a Lattice Monte Carlo Methods, I V Belova and G E Murch, Solid State Phenomena, 129, pp1-10 (2007).
  8. Analysis of Oxygen Segregation at Metal-Oxide Interfaces Using a New Lattice Monte Carlo Method, I V Belova, N Muthubandara, G E Murch,  M Stasiek,  A Öchsner, Solid State Phenomena, 129, pp111-118 (2007).
  9. Stability of Hollow Nanospheres: a Molecular Dynamics Study, A Evteev, E Levchenko, I V Belova and G E Murch, Solid State Phenomena, 129, pp125-130 (2007).
  10. Shrinking Kinetics by Vacancy Diffusion of a Pure Element Hollow Nanosphere, A V Evteev, E V Levchenko, I V Belova and G E Murch, Philosophical Magazine, 87, pp 3787-3796 (2007).
  11. Monte Carlo Modeling of the Effective Diffusivity in Composite Material, I V Belova and G E Murch, Defect and Diffusion Forum, 261-262, pp 103-108 (2007).
  12. Interdiffusion in Strongly Ionic Insulating Compounds: The Nernst-Planck Equation, I V Belova, A.R. Allnatt and G E Murch, Philosophical Magazine, 87, pp 4169-4180 (2007).
  13. Kinetic and Molecular Dynamics Analysis of Carbon Diffusion in Austenite, A.V. Evteev, E.V. Levchenko, I.V. Belova and G.E. Murch, Philosophical Magazine, 87, pp 4335-4357 (2007).
  14. Stability and Shrinkage by Diffusion of Hollow Nanotubes, A V Evteev, E V Levchenko, I V Belova and G.E. Murch, Defect and Diffusion Forum, 266, pp 39-47 (2007).
  15. Modelling of Oxygen Diffusion and Segregation at Interfaces in Ag-MgO Composites, I V Belova, G E Murch, A Öchsner, Defect and Diffusion Forum, 266, pp 29-38 (2007).
  16. Non-Random Interaction of Vacancies with Atoms during Interdiffusion and Ionic Conductivity in Materials, I V Belova and G E Murch, Defect and Diffusion Forum, 266, pp 119-130 (2007).
  17. Ab initio Electronic Structure Calculation of Oxygen Vacancies in Rutile Titanium Dioxide, F M Hossain, G E Murch, L Sheppard and J Nowotny, Solid State Ionics, 178, pp 319-325 (2007).
  18.   The Lattice Monte Carlo Method for Solving Phenomenological Mass and Heat Transport Problems, I V Belova, G E Murch, T Fiedler, A Öchsner, Diffusion Fundamentals, 4, pp 15.1 - 15.23 (2007).
  19.   Analytical and Kinetic Monte–Carlo Study Shrinkage by Vacancy Diffusion of Hollow Nanospheres and Nanotubes, A V Evteev, E V Levchenko, I V Belova  and G E Murch, Diffusion Fundamentals, 6, pp17.1 - 17.2 (2007).
  20.   Formation of a Surface–Sandwich Structure in Pd-Ni Nanoparticles by Interdiffusion: Atomistic Modelling, A V Evteev, E V Levchenko, I V Belova and G E Murch, Diffusion Fundamentals, 6, pp 18.1 - 18.2 (2007).
  21.   Molecular Dynamics Study of Diffusion in Palladium Hollow Nanospheres and Nanotubes, A V Evteev, E V Levchenko, I V Belova and G E Murch, Diffusion Fundamentals, 6, pp19.1 - 19.2 (2007).
  22.   Molecular Dynamics Study of Carbon Diffusion in Cementite, A V Evteev, E V Levchenko, I V Belova and G E Murch, Diffusion Fundamentals, 6, pp15.1 - 15.2 (2007).
  23.   Carbon Diffusion in Austenite: Computer Simulation and Theoretical Analysis, A V Evteev, E V Levchenko, I V Belova and G E Murch, Diffusion Fundamentals, 6, pp16.1 - 16.2 (2007).
  24. T.Fiedler, G. Bingel, A. Öchsner and G. Kuhn, Numerische Analyse des Leichtbaupotenzials von metallischen Hohlkugelstrukturen. Konstruktion 1/2-2007 (2007) 67-71.
  25. T.Fiedler and A. Öchsner, Finite element analysis of the temperature dependent conductivity of metallic hollow sphere structures. International Journal of Multiphysics 1 (2007) 283-289.
  26. T.Fiedler and A. Öchsner, On the thermal conductivity of adhesively bonded and sintered hollow sphere structures (HSS). Defect and Diffusion Forum 553 (2007) 39-44.
  27. T.Fiedler and A. Öchsner, Influence of the morphology of joining on the heat transfer properties of periodic metal hollow sphere structures. Defect and Diffusion Forum 553 (2007) 45-50.
  28. T.Fiedler, A. Öchsner and J. Grádo, Uniaxial elasto-plastic behaviour of adhesively bonded hollow sphere structures (HSS): Numerical simulations and experiments. THERMEC'2006 539-543 (2007) 1874-1879.
  29. E. Pesetskaya, T.Fiedler and A. Öchsner, Two different approaches for the effective conductivity investigation of 2D porous materials with temperature dependent material properties. Defect and Diffusion Forum 553 (2007) 118-123.

2006

  1. Enhancement of Self-Diffusion in F.C.C. Alloys, I V Belova and G E Murch, Philosophical Magazine, 86, pp 1615-1629 (2006).
  2. Sum-Rule Relations among Phenomenological Coefficients: Application to Segregation and Chemical Diffusion in Multicomponent Alloys and Mixed Ceramic Oxides, I V Belova and G E Murch, Defect and Diffusion Forum, 249, pp 17-26 (2006).
  3. Calculation of Phenomenological Coefficients by Monte Carlo Computer Simulation Methods and Verification of Fick's First Law, G E Murch, M.J. Brown and I V Belova, Defect and Diffusion Forum, 249, pp 27-34 (2006).
  4. Atom Transport in Random Two Sublattice Structure: Analogue of the Random Alloy Sum Rule. A R Allnatt, G E Murch and I V Belova, Philosophical Magazine, 86, pp 5837-5846 (2006).
  5. Six-Jump-Cycle Mechanism for Collective Correlations in Nonstoichiometric Intermetallic Compounds, K L Gosain, D K Chaturvedi, I V Belova and G E Murch, Defect and Diffusion Forum, 251-252, pp 59-68 (2006).
  6. The Effect of Defect Disorder on the Electronic Structure of Rutile TiO2-x, F M Hossain and G E Murch, Defect and Diffusion Forum, 251-252, pp 1-12 (2006).
  7. Correlation Effects for Cation Diffusion via Vacancy-Pairs in Fluorite-Related Oxides, I.V. Belova, D. Samuelis, G.E. Murch, and M. Martin, Philosophical Magazine, 86, pp 3559-3569 (2006).
  8. Vacancy-Wind Factors and Collective Correlation Factors in Nonstoichiometric B2 Intermetallic Compounds, K L Gosain, D K Chaturvedi, I V Belova and G E Murch, Defect and Diffusion Forum, 251-252, pp 69-78 (2006).
  9. Analysis of Interdiffusion Data in Multicomponent Alloys to Extract Fundamental Diffusion Information, I.V. Belova and G.E. Murch, Journal of Phase Equilibria and Diffusion, 27, pp 629-637 (2006).
  10. Extraction of Diffusion Correlation Information from Tracer, Interdiffusion and Ionic Conductivity Data, I.V. Belova and G.E. Murch, Advances in Science and Technology, 46, pp 54-62 (2006).
  11. Contribution to the Theory of Demixing of Yttrium in Yttria-Stabilized Zirconia in an Electric Field, I.V. Belova, G.E. Murch, D. Samuelis and M. Martin, Advances in Science and Technology, 46, pp. 42-47 (2006).
  12. Phenomenological Aspects of Grain Boundary Diffusion, I.V. Belova and G.E. Murch, Defect and Diffusion Forum, 258-260, pp 483-490 (2006).
  13. Analysis of Interdiffusion and Intrinsic Diffusion Coefficients in Multicomponent Alloys to Obtain Information about Diffusion Mechanisms, G.E. Murch and I.V. Belova, Defect and Diffusion Forum, 258-260, pp 237-246 (2006).
  14. Molecular Dynamics Study of Carbon Diffusion in Austenite, A. Evteev, E. Levchenko, I.V. Belova and G.E. Murch, Defect and Diffusion Forum, 258-260, pp 253-258 (2006).
  15. Cation Diffusion and Demixing in Yttria-Stabilized Zirconia: Comparison of Assumption of Constant Electric Field and Constant Current, I.V. Belova, G.E. Murch, D. Samuelis and M. Martin, Defect and Diffusion Forum, 258-260, pp 247-252 (2006).
  16. A. Öchsner, T.Fiedler, J. Grácio and G. Kuhn, Experimental techniques for the investigation of the elasto-plastic transition zone of foamed materials. Advanced Engineering Materials 8 (2006) 884-889.
  17. T.Fiedler, E. Pesetskaya, A. Öchsner and J. Grácio, Calculations of the thermal conductivity of porous materials. Portuguese Materials Society Meeting 2005 514-516 (2006) 754-758.
  18. T.Fiedler, A. Öchsner and J. Grácio, The uniaxial strain test - A simple method for the characterization of porous materials. Structural Engineering and Mechanics 22 (2006) 17-32.

Plenary and Keynote Lectures at International Conferences

2014

  1. Recent Advances in the Theory and Computer Modelling of Interdiffusion in Alloys/Intermetallics and Ionic Compounds, to be presented at 13th International Conference on Modern Materials and Technologies (CIMTEC 2014), Montekatini Terme, Italy, June 9-19 (2014).
  2. The Analysis of Local and Global Segregation for Grain Boundary Diffusion, to be presented at Tenth International Conference on Diffusion in Solids and Liquids (DSL 2014), Paris, June 22-27 (2014).
  3. Direct Measurement of the Composition Dependence of the Tracer Diffusivity in Sandwich Interdiffusion Couple", to be presented at Tenth International Conference on Diffusion in Solids and Liquids (DSL 2014), Paris, June 22-27 (2014).
  4. Strategy and Mathematical Formalism for the Simultaneous measurement of tracer and interdiffusion coefficients, to be presented at International Conference on Diffusion in Materials, (DIMAT 2014), August 17-23 (2014).
  5. Direct Measurement of the Composition Dependence of the Tracer Diffusivity in Sandwich Multicomponent Interdiffusion Couple, to be presented at  Materials Science & Technology 2014 (MS&T14), Pittsburgh, October 12-16 (2014).

2013

  1. The Effect of Solute Segregation on Grain Boundary Diffusion, Ninth International Conference on Diffusion in Solids and Liquids, (DSL-2013), Madrid, Spain, (2013).
  2. Tracer Diffusivity Data Collection and Reporting Examples from Mg-based Systems, 11th NIST Diffusion Workshop, Gaithersburg Md, USA, (2013).
  3. Mechanical Properties of Cellular Metals: Potential and Characterization, 6th Pacific Rim International Congress on Advanced Materials and Processing (PRICM-8) Waikoloa, Hawaii USA, (2013). 

2012

  1. Grain Boundary Profiles in Materials with Variable Grain Sizes, Eighth International Conference on Diffusion in Solids and Liquids (DSL-2012), Istanbul, Turkey (2012).
  2. Dissecting the Diffusion Genome, Materials Science and Technology 2012 Conference and Exhibition, Pittsburgh, Pa, USA (2012).
  3. Molecular Dynamics Simulation of Alloying and Reaction in Equi-Atomic Core-Shell Ti-Al Nanoparticles, Materials Science and Technology Conference and Exhibition, Pittsburgh, Pa, USA (2012).

2011

  1. Equilibrium and Time-Dependent Solute Segregation at Grain Boundaries: Systematic Monte Carlo Studies, TMS Annual Meeting and Exhibition, San Diego, Ca, USA (2011).
  2. Development of a Theory of Solute Diffusion Enhancement for Analyzing Interdiffusion experiments. TMS Annual Meeting and Exhibition, San Diego, Ca, USA (2011).
  3. Addressing Phenomenological Diffusion Problems with the Lattice Monte Carlo Method, NIST Diffusion Workshop on the Development of a Reference Self-Diffusion Mobility Database for the Pure Elements, San Diego, Ca, USA (2011).
  4. Analysis of the Time-dependent Grain Boundary Solute Segregation Effect, Seventh International Conference on Diffusion in Solids and Liquids (DSL-2011), The Algarve, Portugal (2011).
  5. The Lattice Monte Carlo Method for Addressing Grain Boundary Diffusion Problems, Eighth International Conference on Diffusion in Materials (DIMAT-2011), Dijon, France, (2011).
  6. Are Correlations Important in Diffusion?  Materials Science and Technology Conference and Exhibition, Columbus, Oh, USA (2011).

2010

  1. Addressing Grain Boundary Diffusion Problems Using the Lattice Monte Carlo Method, International Workshop on Grain Boundary Diffusion, Stresses and Segregation (DSS-2010), Moscow, Russia (2010).
  2. Harrison's Diffusion Kinetics Regimes in Grain Boundary Diffusion :Lattice Monte Carlo Modelling of the Effect of Segregation, International Workshop on Grain Boundary Diffusion, Stresses and Segregation (DSS-2010), Moscow, Russia (2010).
  3. The Effect of Time-dependent Segregation on the Diffusion Kinetics Regimes in Grain Boundary Diffusion, Sixth International Conference on Diffusion in Solids and Liquids (DSL-2010), Paris, France (2010).
  4. Application of the Lattice Monte Carlo Method to Heat Conduction Problems: An Overview on Recent Developments, Sixth International Conference on Diffusion in Solids and Liquids (DSL-2010), Paris, France (2010).
  5. Solving Complex Thermal and Mass Transport Problems with the Lattice Monte Carlo Method, Seventh Pacific Rim International Conference on Advanced Materials and Processing, (PRICM-7), Cairns, Australia (2010).

2009

  1. Origin of the Vacancy-Wind Effect in Interdiffusion in Intermetallics, Fifth International Conference on Diffusion in Solids and Liquids (DSL-2009), Rome, Italy (2009).
  2. Parametric Analysis of the Classification of Harrison Kinetics Regimes in Grain Boundary Diffusion, Fifth International Conference on Diffusion in Solids and Liquids (DSL-2009), Rome, Italy (2009).
  3. Diffusion and Reaction in Nanoparticles: Simulation Studies, International Conference on Thermodynamics and Transport Kinetics in Nanostructured Materials, Nordkirchen Castle, Germany, (2009). 
  4. Diffusion Kinetics in Hollow and Core/Shell Nanoparticles, Third International Conference on Diffusion Fundamentals, Athens, Greece (2009).

2008

  1. Lattice-Based Walks and the Monte Carlo Method for Addressing Mass, Thermal and Elasticity Problems,  Fourth International Conference on Diffusion in Solids and Liquids (DSL-2008), Barcelona, Spain (2008).
  2. The Synthesis, Stability and Shrinkage of Hollow Nanoparticles: An Overview, Fourth International Conference on Diffusion in Solids and Liquids (DSL-2008), Barcelona, Spain (2008).
  3. The Monte Carlo Method for Solving Diffusion Problems: Achievements and Challenges, Seventh International Conference on Diffusion in Materials (DIMAT-2008), Canary Islands, (2008).
  4. Diffusion Mechanisms of Carbon in Austenite and Cementite, International Conference on Diffusion in Materials (DIMAT-2008), Canary Islands (2008).
  5. Hollow Nanoparticles: Formation and Shrinkage by Diffusion, Materials Science and Technology 2008 Conference and Exhibition, Pittsburgh,  USA (2008).

2007

  1. Non-Random Interaction of Vacancies with Atoms during Interdiffusion and Ionic Conductivity in Materials, 2007 TMS Annual Meeting and Exhibition, Orlando, USA (2007).
  2. Diffusion Kinetics Analysis of Cation Diffusion in YSZ and LSGM, Third International Conference on Diffusion in Solids and Liquids (DSL-2007), The Algarve, Portugal, (2007).
  3. Visualization of the Vacancy-Wind Effect in Solid State Diffusion, Third International Conference on Diffusion in Solids and Liquids (DSL-2007), The Algarve, Portugal, (2007).
  4. Exploration of the Transition from Harrison Type-A Kinetics to Type-B Kinetics Regimes in Grain Boundary Diffusion, 3rd International Conference on Diffusion in Solids and Liquids (DSL-2007), The Algarve, Portugal, (2007).
  5. Application of the Lattice Monte Carlo Method for Addressing Phenomenological Mass and Thermal Diffusion Problems, 61st Annual Technical Meeting of the Indian Institute of Metals, Mumbai, India (2007).
  6. The Formation, Stability and Shrinkage of Hollow Nanocrystalline Structures, 61st Annual Technical Meeting of the Indian Institute of Metals, Mumbai, India (2007).
  7. The Lattice Monte Carlo Method for Addressing Mass and Thermal Transport Problems in Materials, Materials Research Society Fall Meeting, Boston, USA (2007).

2006

  1. Analysis of Interdiffusion Data in Multicomponent Alloys to Extract Fundamental Diffusion Information, 2006 TMS Annual Meeting and Exhibition, San Antonio, USA (2006).
  2. Recent Progress in the Theory of Diffusion Kinetics in Materials, 2006 TMS Annual Meeting and Exhibition, San Antonio, USA (2006).
  3. Extraction of Diffusion Mechanism Information from Tracer and Interdiffusion Data, Eleventh International Congress and Fourth Forum on New Materials (CIMTEC-2006), Sicily, Italy (2006).
  4. Phenomenological Aspects of Grain Boundary Diffusion, Second International Conference on Diffusion in Solids and Liquids (DSL-2006), Aveiro, Portugal (2006).
  5. Analysis of Interdiffusion and Intrinsic Diffusion in Multicomponent Alloys to Obtain Information About Diffusion Mechanisms, Second International Conference on Diffusion in Solids and Liquids (DSL-2006), Aveiro, Portugal (2006).
  6. Analysis of Interdiffusion Data in Multicomponent Alloys, International Symposium on Diffusion and Thermodynamics, (D&T-06), Brno, Czech Republic (2006).
  7. Bridging Different Length and Time Scales in Diffusion Problems using Variable Length Lattice Models, European Materials Research Society Fall Meeting, Warsaw, Poland (2006).