Department of Mechanical and Aerospace Engineering 
Princeton University 
Princeton, New Jersey 08544

Tel: 609-258-0474 

Fax: 609-258-6109
mendelev@Princeton.EDU

EDUCATION

1995  Ph.D., Solid State Physics

           Moscow Steel and Alloys Institute, Moscow, Russia

           Thesis: Computer simulation of non-crystalline systems from diffraction data

1993  M.S., Solid State Physics

           Moscow Steel and Alloys Institute, Moscow, Russia

EXPERIENCE

Research Experience:

Structure of Amorphous and Liquid Materials:

· Computer simulation of the structures of the non-crystalline materials

· Calculation of the effective pair potentials from diffraction data

· Calculation of the partial pair potential functions from insufficient numbers of the diffraction experiments data by computer simulation

Thermodynamics and Kinetics of Liquid and Amorphous States:

· Calculation of vibration spectra of liquid metals

· Evaluation of the diffusion coefficients of liquid and  amorphous metals from structural data

· Calculation of some thermodynamic and mechanical properties in  the framework of pair interaction conception

Teaching Experience:

· Undergraduate Courses:

   Thermodynamics, Statistical Thermodynamics, Chemical Kinetics, Surface

   Phenomena

· Graduate Course:

   Theory of Liquid and Amorphous States

· Development of Teaching Programs for Undergraduate students

PUBLICATIONS

1.Belashchenko D.K. and Mendelev M.I., Reconstruction of Atomic Models of Amorphous Alloys by Using Structural Data, Fiz. Met. Metalloved., 1991, no.8, pp.28-38.

2.Belashchenko D.K. and Mendelev M.I., New Algorithms for the Reconstruction of Atomic Models Using Pair Correlation Functions, Izv. Vuz., Chernaya Met., 1991, no.9, p.110.

3.Mendelev M.I. and Belashchenko D.K., New Algorithms for the Reconstruction of Atomic Models of Molten and Amorphous Bodies, Rasplavy, 1992, no.4, pp.60-65.

4.Belashchenko D.K. and Mendelev M.I., Force Algorithms for the Reconstruction of Atomic Models of Two-Component Amorphous Alloys from Diffraction Data, Rasplavy, 1993, no.1, pp.46-51.

5.Mendelev M.I., Belashchenko D.K. and Ishmaev S.N., Construction of Atomic Models of the Amorphous Alloy Ni₆₅B₃₅ Using Diffraction Data, Inorg. Mater., 1993, v.29, no.11, pp.1483-1489.

6.Belashchenko D.K. and Mendelev M.I., Solution of the Born-Green-Bogoliubov Equation Using Computer Simulation, Metally, 1993, no.5, pp.8O-89.

7.Mendelev M.I., Belashchenko D.K., The Calculation of Interatomic Pair Potentials from the Structure of Two-Component Liquid Alloys Using The Born-Green-Bogoliubov Equation, Inorg. Mater., 1994, v.30, no.3, pp.379-386.

8.Mendelev M.I., Belashchenko D.K., The Analysis of Diffraction Data on the Structure of Liquid Tin and Lead Using The Born-Green-Bogoliubov Equation and Molecular Dynamics Simulations, Inorg. Mater., 1994, v.30, no.11, pp.1316-1326.

9.Mendelev M.I., Belashchenko D.K., Computer Simulation of Liquid Silver and Ag₇₅₉Ge₂₄₁ from Diffraction Data, Inorg. Mater., 1995, v.31, no.2, pp.199-205.

10.Mendelev M.I., Belashchenko D.K., Application of the Born-Green-Bogoliubov Equation for Calculation of Interatomic Potentials for Metallic Glasses, Russian J. Phys. Chem., 1995, v.69, no.3.

11.Mendelev M.I., Belashchenko D.K., Computer Simulation of Liquid Ni and Ni₆₂Nb₃₈ Metallic Glasses, Metally, 1995, no.3.

12.Belashchenko D.K., Mendelev M.I. and Ishmaev S.N., Computer Simulation of the Ni₆₅B₃₅ Amorphous Alloy Using Force Algorithm, J. Non-Cryst. Solids, 1995, v.192-193, pp.623-626.

13.Belashchenko D.K., Mendelev M.I. and Momchev M.P., The Methods of Creation of Two-Component Liquid Metallic Alloys Computer Models from Diffraction Data, Rasplavy, 1995, v.6, pp.123-132.

14.Mendelev M.I., Belashchenko D.K. and Ishmaev S.N., Creation of the Ni₄₄Nb₅₆ and Ni₆₂Nb₃₈ Metallic Glasses Computer Models and Investigation of Their Structures, J. Non-Cryst. Solids 1996, v.205-207, pp.888-892.

15.Belashchenko D.K. and Mendelev M.I., Computer Simulation of Structure and Properties of Noncrystalline Materials, Izv. Vuz., Chernaya Met., 1996, no.11, p.65-68.

16.Mendelev M.I., Ishmaev S.N., Svab E. at al, Short-range Order in Ni₈₃La₁₇ metallic glass, Physica B, 1997, v.235-237, pp.416-417.

17. Mendelev M.I. An Iterative Procedure for the Creation of Computer Models of Non-Crystalline Materials from Diffraction Data, J. Non-Cryst. Solids, 1998, v.223, pp.230-240.

18. Mendelev M.I. Computer simulation of Ag-In liquid alloys structure and self-diffusion coefficient calculations, J. Non-Cryst. Solids, 1998, v.232-234, pp.560-566.

19. Mendelev M.I., Ishmaev S.N., Hajdu F., Mészáros Gy. and Sváb E. Partial structure correlations in amorphous Ni₈₃La₁₇, J. Non-Cryst. Solids, 1998, v_{.240, pp.35-42.}

20. Mendelev M.I. Creation of two-component liquid alloys computer models from data of two diffraction experiments, Physica B, 1999, v.262, pp.40-48.

21. Mendelev M.I., Ishmaev S.N., Hajdu F., Meszaros Gy. and Svab E. Short-Range Order in Be₄₀Zr₆₀ Metallic Glass, Materials Science Forum Vols. 321-324 (2000) pp. 496-501

22. Belashchenko D.K., Ginzburg A.S., Mendelev M.I. Calculations of the structural and diffusion characteristics of liquid cesium from diffraction data, Russ. J. Phys Ch., 2000, v.74 pp.577-582.

23. Mendelev M.I. and Srolovitz D.J. Kink model for extended defect migration: Theory and simulations, Acta Mater., 2000 v.48(14) pp.3711-3717.

24. Srolovitz D.J., Mendelev M.I., Upmanyu M., Gottstein G., Molodov D.A. and Shvindlerman L.S. Grain boundary mobility in metallic alloys: recent simulations and experiments, Proc. of the 21st Ris0 Inter. Symp. on Materials Science, Ris0 National Lab., Roskilde, Denmark, 2000, pp.157-178.