Engineering Mechanical

Location:

Cincinnati, OH, 45459

Posted:

April 11, 2013

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Resume:

Valeriy Buryachenko

Valeriy A. Buryachenko

(Ph. D., in MECHANICS of COMPOSITES)

**** ******* ****, ***********, ** 45459

Ph. 937-***-*****

*******@***.***

US Citizen

CURRENT POSITION:

President of small consulting company Micromechanics & Composites LLC. 2520 Hingham Lane,

Centerville, OH 45459, USA; Ph: 937-***-****

PROFESSIONAL/RESEARCH AREAS of EXPERTISE :

Competent Sr. Scientist/Supervisor with over twenty years of successful experience leading cross-

functional teams in: MICROMECHANICS of MICROINHOMOGENEOUS MEDIA:

• Particular and fiber reinforced composites with metal-matrix, plastic-matrix and ceramic-matrix

• Nanocomposites

• Functionally graded composites

• Suspensions and emulsions

• Solid propellants and explosives

• Geomaterials

• Constitutive modeling of composites

• Multiscale analysis of composite materials

• Higher temperature performance polymers and composites

• Thermo-elasto-plasticity and visco-plasticity of composites

• Strength, fracture, fatigue, aging, and durability of composites

• Damage mechanics

• Heat and electrical conductivity in composites

• Wave propagation in composites

• Termo-electro-elasticity and other coupled effect in composites

• Overall properties and the fluctuations of random fields

• Differential and integral equations, asymptotic methods, optimization methods, numerical methods

• Computational solid mechanics, nonlinear analysis

• Probabilistic and reliability methods

• Finite element analysis

These results may be applied in the following branches of industry:

• in aircraft and space industry

• in machine building when new composite materials are explored in intensive coupled physic-

mechanical fields

• in nondestructive testing

• in chemical technology of suspension and emulsion

• in coal-and oil industries

• in powder metallurgy

EDUCATION:

Valeriy Buryachenko

(a) M.Sc. in Applied Mathematics. M. V. Lomonosov Moscow State University, Russia. Total

semester hours of university credit – 161.25. U.S. Equivalency: Master’s degree in Mathematics

(evaluated by ``Educational Perspectives”, www.edperspective.org –NACES member).

(b) Ph.D. in Mechanical Eng., Research Institute of Chemical Production Engineering

(Moscow, Russia). Ph.D. Thesis "Prediction of physicomechanical properties of composite

materials.” (Adviser Prof. B. D. Goikhman). U.S. Equivalency: Earned Doctorate (Ph.D.) in

Engineering Science (evaluated by ``Educational Perspectives”, www.edperspective.org –NACES

member).

POSITION HELD:

08.2010-07.2012. Lead, Solid Mechanics Modeling Group, IllinoisRocstar, 60

Hazelwood Drive, Champaign, IL 61820

2) 01.2008-present. President of small consulting company Micromechanics & Composites

LLC. 2520 Hingham Lane, Centerville, OH 45459, USA; Ph: 937-***-****

3) 03.2011-06.2011 Visiting Researcher, Department of Structural Engineering, University

of Cagliari, I-09123 Cagliari, Italy; Ph. +39-070-***-****

4) 07.2009-03.2010 Visiting Researcher, Department of Structural Engineering, University of Cagliari, I-

09123 Cagliari, Italy; Ph. +39-070-***-****

5) 2000 - 2008. Sr. Res. Eng, University of Dayton Res. Inst., 300 College Park, Dayton, OH

6) 1998 - 2000 – Sr. Res. Associate, Wright-Patterson Air Force Base, USA.

7) 1994 - 1998, Visiting Res. Prof. in Laboratory "Micromechanics of Materials" TU Vienna (Austria).

8) 1993 - 1994, Max-Planck-Society Fellow, Max-Plank-Gesellschaft (TU Dresden, Germany)

9) 1984 - 1993, Group Leader and Senior Research Scientist, Associate Professor, and Professor at the

Department of Mathematics of the Moscow Inst. of Chemical Engng Industry, Russia.

10) 1979 - 1984, Research Scientist, Group Leader and Senior Research Scientist, Research Institute of

Chemical Production Engineering (Moscow, USSR)

ACADEMIC HONORS AND AWARDS:

• Max-Planck-Society Fellowship (Germany) - 1993, 1994.

• Austrian Society for the Promotion of Scientific Research Fellowship (FWF) - 1997, 1998.

• National Research Council/United State Air Force Office of Scientific Research Associateship,

(Senior Research Associate) - 1998, 1999.

• Who’s Who in the Word, Marquis (24th Edition), 2006

• Who's Who in Science and Engineering - 2005-2006, 8 th Edition (pub. 2004)

• Star Team Award of the Air Force Office of Scientific Research (AFOSR) – 2006

• Award, Eppley Foundation for Research – 2008

• Who’s Who in America, Marquis, 2009

• Visiting Program of the Univ. of Cagliari funded by Regione Autonoma della Sardegna

(Italy), 2009-2010

• Visiting Program of the Univ. of Cagliari funded by Regione Autonoma della Sardegna

(Italy) for 2010/2011

PUBLICATIONS: 150 (124 in English).

REFERENCES:

Valeriy Buryachenko

Dr. Allan Crasto, Associate Director, University of Dayton Research Institute, 937-***-****,

*****.******@****.*******.***

Prof. George J. Dvorak, Civil Engineering., Northwestern University, Evanston, IL 60208-3109, USA.

Ph. +1-518-***-****, *-******@************.***

Prof. John W. Gillespie, Jr., Director of Univ. Delaware Center for Composite Materials Newark, DE

19716-3144, Ph. 302-***-****; *********@***.****.***

Prof. Marek J Pindera, Dep. Civil Engng, D-214 Thornton Hall, University of Virginia, McCormick

Road, Charlottesville, VA 22903. Ph.: 804-***-****, ****@********.***

Prof. Franz G Rammerstorfer, Vice Rector for Research, Inst. Lightweight Design and Structural

Biomechanics, Vienna Univ. Technol. Gusshaus-Str. 27-29/e317, A-1040 Vienna, Austria. Ph.: +43

1 58801/31700, E-mail: **@****.******.**.**

Prof. Salvatore Torquato, Dep. Chemical Engineering and Princeton Materials Institute Princeton Univ.

Princeton, NJ 08544; ********@********.*********.*** Ph.: +1-609-***-****

Prof. George Z. Voyiadjis, Chair of Dep. Civil and Environmental Engineering, Louisiana State

University, Baton Rouge, LA 70803-6405, Ph 225-***-****; *********@***.***.***

Prof. George J Weng, Dep. Mech. Aerosp. Engng., Rutgers University, New Brunswick, NJ 08903,

USA. Ph. +1-908-***-****, E-mail: ****@****.*******.***

SOME REFERED JOURNAL ARTICLES:

1. Goikhman B.D., Buryachenko V.A. One variant of the topokinetic model of fracture of solids.

Strength of Mater., 1981, 12, 152-157

2. Goikhman B.D., Buryachenko V.A., Cheperegina R. A. Prediction of variation of mechanical

properties of composite materials at long-term exposure in the natural conditions. Mechanics

Composite Materials, 1981, N5, 941 (in Russian).

3. Buryachenko V. A., Cheperegina R. A., Goikhman B.D., Prediction of the change of characteristics of

composite materials in long-term storage under natural conditions. Plastics. 1982, N4, 15-18. (In

Russian).

4. Buryachenko V.A., Goikhman B.D., Smekhunova T.P. Calculation of kinetics of chemical reactions in

periodic temperature fields. Kinetics and Catalyze. 1982, 23, 1249-1255.

5. Buryachenko V.A.,Goikhman B.D. Integro-differential criterion of the strength of aging polymers.-

Strength of Mater., 1985, 17(8), 1138-1141.

6. Buryachenko V. A. (1986) Prediction of variations of exploiting parameters of polymer materials at

the long storage. Plastics. 1985, N3, 17-19. (In Russian).

7. Buryachenko V.A. Correlation function of stress field in matrix composites. - Mechanics of Solids,

1987, 22(3), 66-73

8. Buryachenko V.A., Lipanov A.M. Stress concentration at ellipsoidal inclusions and effective

thermoelastic properties of composite materials.- Soviet Applied Mech, 1986, 22(11), 1103-1109

9. Buryachenko V.A., Lipanov A.M. Equation of mechanics for gas-saturated porous media.- J.

Appl. Mech. & Tech. Phys. 1986, 27(4), 577-581.

10. Buryachenko V.A., Lipanov A.M. Equation of isotropic deformation for gas-saturated media

counting large deformation of spherical porous.- Ibid. 1988, 29, 565-56.

11. Buryachenko V.A., Lipanov A.M. Effective field method in the theory of perfect plasticity of

composite materials .-- Ibid. 1989, 30(3), 482-487.

12. Buryachenko V.A., Lipanov A.M. Predicting the parameters of a nonlinear flow of multicomponent

mixtures.- Ibid. 1989, 30(4), 558-562.

Valeriy Buryachenko

13. Buryachenko V.A., Lipanov A.M. Effective moduli of elasticity of composites of third order.- Ibid.

1990, 31(6), 909-913.

14. Buryachenko V.A., Parton V.Z. Effective Helmholtz operator for matrix composites. Mech.Solids,

1990, 25(3), 60-69.

15. Buryachenko V.A., Parton V.Z. The efficient parameters of statistically nonhomogeneous matrix

composites- Ibid. 1990, 25(5), 22-28.

16. Byryachenko V.A., Lipanov A.M.Effective characteristics of elastic physically nonlinear composites.

Soviet Appl. Mech, 1990, 25(1), 9-13.

17. Byryachenko V.A. Effective viscoplasticity parameters of suspensions.- J . Eng. Phys. 1990, 58(1),

331-334.

18. Parton V.Z.,Buryachenko V.A. Stress fluctuation in elastic composites.- Sov. Phys. Dokl. 1990,

35(2), 191-193.

19. Buryachenko V.A., Parton V.Z. One-particle approximation of the effective field method in statics of

composites.- Mech. Comp. Mater. 1990, N 3, p.304-309.

20. Buryachenko V.A., Parton V.Z. Bounds of effective moduli of composite materials.-Ibid. 1990,N 5.

21. Byryachenko V.A. Lipanov A.M., Kozhevnikova Yu.G. Effective properties of elastoplastic porous

materials.- Strength Mater, 1991, 23(1), 41-45.

22. Buryachenko V.A. Prediction of macroproperties of composite medium by the elastoplastic

effective field method - Ibid. 1990, 22(11), 1645-1650.

23. Buryachenko V.A. Scorbov Yu.S., Gunin S.V. Effective parameters of the strength of matrix

composites - Ibid. 1991, 23(12).

24. Buryachenko V.A., Murov V.A. Effective conductivity of matrix composites - J. Eng. Phys., 1991,

61(2), 1041-1047.

25. Buryachenko V.A. et all. Effective rheological parameters of suspensions with polyfractional filler.

– Ibid.1991, 61(6), 1478-1482.

26. Buryachenko V.A.,Parton V.Z. Effective parameters of static conjugating physico-mechanical fields

in matrix composites.- Sov. Mater. Sci. 1991, 27(4), 428-433.

27. Buryachenko V.A., Parton V.Z. Many-partical differential methods in statics of composites. - J.

Appl. Mech. & Tech. Phys. 1992, 33(3), 455-464.

28. Buryachenko V.A., Parton V.Z. Effective parameters of composites in conjugating physico-

mechanical fields. - Ibid. 1992, 33(4), 589-593.

29. Buryachenko V.A., Parton V.Z. Effective field method in statics of composites - Ibid. 1992, 33(5),

735-745.

30. Buryachenko V.A.,Kreher W.S.Internal residual stresses in heterogeneous solids-A statistical theory

for particulate composites. J. Mech. Phys. Solids. 1995, 43, 1105-1125.

31. Buryachenko V.A., Shermergor T.D. Material and field characteristics of piezoelectric rock. Some

exact results. Phys. of the Solid Earth, 1996, 31, 665-674.

32. Byryachenko V. A., Rammerstorfer F. G. Thinly coated inclusion with stress free strains in an

elastic medium. - Mech. Res. Comm., 1996, 23, 505-509.

33. Buryachenko V.A.The overall elastoplastic behavior of multiphase mater. - Acta Mech. 1996, 119,

93-117.

34. Buryachenko V. A., Rammerstorfer F. G. Elastic stress fluctuations in random structure particulate

composites. Eur. J. Mech. A/Solids., 1997, 16, 79--102.

35. Buryachenko V. A., Rammerstorfer F. G., Plankensteiner A. F. A local theory of elastoplastic

deformations of random structure composites.- Z. Angew. Math. Mech., 1997, 7(S1), S61-S62.

Valeriy Buryachenko

36. Plankensteiner A. F., Rammerstorfer F.G., Buryachenko V.A., Hackl G. Modeling of layer-

structured high speed tool steel. Acta Mater. 1997, 45, 1875-1887.

37. Plankensteiner A.F., Bohm H.J., Rammerstorfer F.G., Buryachenko V.A. Hierarchical modeling of

the mechanical behavior of high speed steels as layer-structured particulate MMCs. Journal de

Physique IV, 1997, 6, C6-395-402.

39. Buryachenko V. A., Rammerstorfer F. G. Thermoelastic stress fluctuations in random structure

composites with coated inclusions. Eur. J. Mech. A/Solids. 1998, 17, 763-788.

40. Buryachenko V. A. Some nonlocal effects in graded random structure matrix composites. Mech.

Res. Commun., 1998, 25, 117-122.

41. Buryachenko V. A., Rammerstorfer F. G. On the thermoelasticity of random structure particulate

composites. Z. angew. Mech. Phys. 1999, 50, 934-947.

42. Buryachenko V. A. Thermo-elastoplastic deformation of elastically homogeneous materials with a

random field of inclusions. Int. J. Plasticity, 1999, 15, 687--720.

43. Buryachenko V. A. Triply periodical particulate matrix composites in varying external stress fields.

Int. J. Solids Struct., 1999, 36, 3837-3859.

44. Buryachenko V. A. Effective thermoelastic properties of graded doubly periodic particulate matrix

composites in varying stress fields. Int. J. Solids Struct. 1999, 36, 3861-3885.

45. Buryachenko V. A., Rammerstorfer F. G. On the thermostatics of composites with coated random

distributed inclusions. Int. J. Solids Struct. 2000, 37, 3177-3200.

46. Buryachenko V. A. Internal residual stresses in elastically homogeneous solids: I. Statistically

homogeneous stress fluctuations. Int. J. Solids Struct. 2000, 37, 4185-4210.

47. Buryachenko V. A. Internal residual stresses in elastically homogeneous solids: II. Stress

fluctuations near a crack tip and effective energy release rate. Int. J. Solids Struct. 2000, 37, 4211-

4238.

48. Buryachenko V. A. A simple method of analysis of multiple inclusion interaction problem . Int. J.

Comput. Civil & Structural Engng. 2000, 1(3), 7-25.

49. Buryachenko V. A., Bechel V. T. A volume integral equation method for multiple inclusion

interaction problems. Compos. Sci. Technol. 2000, 60, 2465-2469.

50. Buryachenko V. A. Locality principle and general integral equations of micromechanics of

composite materials. Math. Mech. of Solids. 2001, 6, 299-321.

51. Buryachenko V. A. Multiparticle effective field and related methods in micromechanics of random

composite materials. Math. Mech. of Solids. 2001, 6, 577-612.

52. Buryachenko V. A., Rammerstorfer F., G. Local effective thermoelastic properties of graded random

structure composites. Arch. Appl. Mech. 2001, 71, 249-272.

53. Buryachenko V. A. Multiparticle effective field and related methods in micromechanics of

composite materials. Appllied Mechanics Review. 2001, 54(1), 1-47. (540 refs.)

38. Buryachenko V. A., Rammerstorfer F., G. Plankensteiner A. F. A local theory of elastoplastic

deformation of two-phase metal matrix random structure composites. ASME J. Appl. Mech. 2002,

69, 489-496.

54.Buryachenko V. A., Pagano N. J. Nonlocal models of stress concentrations and effective

thermoelastic properties of random structure composites. Math. Mech. of Solids, 2003, 8, 403-433.

55. Buryachenko V. A., Pagano N. J., Kim R. Y., Spowart J. E. Quantitative description of random

microstructures of composites and their effective elastic moduli.Int. J. Solids Struct 2003, 40, 47-72.

56. Buryachenko V. A., Tandon, G. P. Estimation of effective elastic properties of random structure

composites for arbitrary inclusion shape and anisotropy of components using finite element

analysis. Int. Journal of Multiscale Computational Engineering, 2004, 2(1), 29-45.

Valeriy Buryachenko

57. Buryachenko V.A., Schoeppner G. Effective elastic and failure properties of fiber aligned

composites. Int. J. Solids Struct, 2004, 41, 4827-4844.

58. Buryachenko V. A. Multiscalar mechanics of nonlocal effects in heterogeneous materials. J .

Multiscale Computational Engineering. 2004, 2(1), 1-14.

59. Buryachenko V. A. Foreword to Special Issue on Recent Advances in Micromechanics of

Composite Materials. J. Multiscale Computational Engineering. 2004, 2(1), vii-viii.

60. Buryachenko V. A., Pagano N.J. Multiscale analysis of multiple interacting inclusions problem:

Finite number of interacting inclusions. Math. Mech. of Solids. 2005, 10, 25-62.

61. Buryachenko, V. A. and Roy. A. (2005) Effective elastic moduli of nanocomposites with prescribed

random orientation of nanofibers. Composites B36, 405-416.

62. Buryachenko, V. A. (2005) Effective elastic moduli and stress concentrator factors in random

structure aligned fiber composites. ZAMP, 56, 1107-1115.

63. Buryachenko, V. A. Triply periodic particulate matrix composites with imperfect unit cells. Int. J.

Solids Struct, 2005, 42, 4811-4832.

64. Buryachenko, V. A. and Roy. A. (2005) Effective thermoelastic moduli and stress concentrator

factors of nanocomposites. Acta Mechanica. 177, 149-169.

65.Kushch, V. I., Shmegera, S. V., Buryachenko, V. A. (2005) Interacting elliptic inclusions by the

method of complex potentials Int. J. Solids and Structures, 42, 5491-5512.

66. Buryachenko, V. A., Roy A., Lafdi, K., Anderson, K. L., Chellapilla, S. (2005) Multi-scale

mechanics of nanocomposites including interface: experimental and numerical investigation.

Comp. Sci. Technol. 65, 2435-2465 (200 refs.).

67. Buryachenko V. A., V. I. Kushch V. I. (2006) Effective transverse elastic moduli of composites at

non-dilute concentration of a random field of aligned fibers. ZAMP, 57, 491 - 505

68. Kushch, V. I., Shmegera, S. V., Buryachenko, V. A. (2006) Elastic equilibrium of a half plane

containing a finite array of elliptic inclusions. Int. J. Solids and Structures, 43, 3459–3483

69. Buryachenko V. A., Kushch V. I. (2006) Statistical properties of local residual microstresses in

elastically homogeneous composite half-space. Int. J. Multiscale Comput. Enging. 4, 733-754.

70. Buryachenko, V. A. (2007) Generalralization of the multiparticle effective field method in static of

random structure matrix composites. Acta Mechanica, 188, 167–208

71. Buryachenko V. A., Kushch V. I., Roy. A. (2007) Effective thermoelastic properties of random

structure composites reinforced by the clusters of deterministic structure (application to clay

nanocomposites). Acta Mechanica. 192, 135–167

72 Buryachenko V. A., Kushch V. I., Dutka V. A., Roy A. (2008) Effective elastic properties of

nanocomposites reinforced by cylindrical nanofibers. Acta Mechanica. 198, 129–146

73. Buryachenko V. A. (2010) On some background of random structure matrix composites materials.

Int. J. Pure Appl. Mathematics. 59, 163–179.

74. Buryachenko V. A. (2010) On the thermo-elastostatics of heterogeneous materials. I. General

integral equation. Acta Mechanica. 213, 359-374.

75. Buryachenko V. A. (2010) On the thermo-elastostatics of heterogeneous materials. II. Analyze and

generalization of some basic hypotheses and propositions. Acta Mechanica. 213, 375-398.

76. Buryachenko V. A., Brun M. (2011) FEA in elasticity of random structure composites reinforced by

heterogeneities of noncanonical shape. Int. J. Solids and Structures 48, 719-728.

77. Buryachenko V. A., Brun M. (2011) Thermoelastic effective properties and stress concentrator

factors of composites reinforced by heterogeneities of noncanonical shape. (Submitted).

78 Buryachenko V. A., Brun M. (2011) Random residual stresses in elasticity homogeneous mediumwith

inclusions of noncanonical shape. Int. J. Multiscale Comput. Enging. 10, 261-279

Valeriy Buryachenko

79. Buryachenko V. A. (2011) Inhomogeneity of the first and second statistical moments of stresses

inside the heterogeneities of random structure matrix composites. Int. J. Solids and Structures. 48,

1665-1687

80 Buryachenko V. A. (2011) Inhomogeneity of the first and second statistical moments of stresses

inside the heterogeneities of random structure matrix composites. Int. J. Solids and Structures. 48,

1665-1687.

81. Buryachenko V. A. (2011) On thermoelastostatics of composites with nonlocal properties of

constituents. I. General representations for effective material and field parameters. Int. J. Solids and

Structures 48, 1818-1828.

82. Buryachenko V. A. (2011) On thermoelastostatics of composites with nonlocal properties of

constituents. II. Estimation of effective material and field parameters. Int. J. Solids and Structures

48, 1829-1845.

83 Buryachenko V. A., Brun M. (2012) Random residual stresses in elasticity homogeneous mediumwith

inclusions of noncanonical shape. Int. J. Multiscale Comput. Enging. 10, 261–279

84. Buryachenko V. A., Brun M. (2012) Thermoelastic effective properties and stress concentrator

factors of composites reinforced by heterogeneities of noncanonical shape. Mech. Mater. 53, 91-110

85. Buryachenko V., Jackson T., Amadio G. (2012): Modeling of random bimodal structures of

composites (application to solid propellant): I. Simulation of random packs. Computer Modeling in

Engineering & Sciences 85(5), pp. 379-416, see also Arxiv preprint:

h ttp://arxiv.org/abs/1207.7260 (100 refs.)

86. Buryachenko V. (2012) Modeling of random bimodal structures of composites (application to solid

propellant): II. Estimation of effective elastic moduli . Ibid, 85(5), 417-446, see Arxiv preprint:

h ttp://arxiv.org/abs/1207.7271 (101 refs.)

87. Buryachenko V. A., Brun M. (2013) Iteration method in linear elasticity of random structure

composites containing heterogeneities of noncanonical shape. Int. J. Solids and Structures 50, 1130-

1140.

88. Buryachenko V. (2013) General integral equations of micromechanics of composite materials with

imperfectly bonded interfaces. (Submitted).

PUBLISHED PROCEEDINGS:

84. Parton V.Z., Buryachenko V.A. Mechanics of random structure composites- Proc. of Second Int.

Symp. on Composite Materials and Structures. Peking Univ. Press, Beijing, China,1992,485-488.

85. Buryachenko V.A., Parton V. Z. Mechanics of random structure composites- Abs. of 18th Int. Cong.

of Theoretical and Applied Mech. -Haifa, Israel, 1992, p.31.

86. Parton V.Z., Buryachenko V.A. Mechanics of microdefected materials- Reliability and Structural

Integrity of Materials. -Eds.S.Sedmak,A.Sedmak,D.Ruzic.EMAS,Varna, 1992, 1, 254-259.

87. Parton V.Z., Buryachenko V.A. Mechanics of microdefected materials- Fracture and Damage of

Concrete and Rock.-Ed. H.P. Rosmanith. E&FN Spon, Vienna, 1993, 317-323.

88. Parton V.Z.,Buryachenko V.A.Strength of microdefected materials. - Proc. of VIII Int. Conf. on

Fracture (ICF8), Kiev, Ukraine, 1993.

89. Buryachenko V.A. Mechanics of random structure composites.- Proc. of 9th Int. Conf. on

Composites.-Ed. A. Mizavete, Univ. Zaragoza, Spain, 1993, pt. 3, 398-405.

90. Buryachenko V.A. Effective strength properties of elastic physically nonlinear composites. Proc. of

Int. Seminar on Micromechanics of Materials. - Eds. J.-J. Marigo, G. Rousselier. Paris. Editions

Eyrolles, 1993, 567-578.

Valeriy Buryachenko

91. Buryachenko V. A., Rammerstorfer F. G. Micromechanics of elastoplastic deformation of two-phase

metal matrix composites. 2 Int.Conf. Compos. Engng. - Ed. D. Hui. Univ. of New Orleans, USA,

1995, 617-618.

92. Buryachenko V.A., Rammerstorfer F.G. Elastoplastic behavior of elastically homogeneous

materialswith a random field of inclusions. Continuum Models & Discrete Systems. Ed.

K.Z.Markov. World Scientific, Singapure, Ney Jersey. 1996, 140-147.

93. Buryachenko V.A., Bohm H.M., Rammerstorfer F.G. Modeling of the overall elastoplastic behavior

of multiphase materials by the effective field method. IUTAM Symp. Micromech. of Plasticity and

Damage of multiphase materials. Eds. A. Pineau, Z. Zaoui. Kluwer Academic Publ., Dordrecht,

1996, 35-42.

94. Buryachenko V.A., Rammerstorfer F.G. Multiparticle effective field method in micromechanics of

random structure composites. Abst. of 19th Congr.ICTAM. Kyoto, Japan, 1996, 257.

95. Plankensteiner A.F., Rammerstorfer F.G., Buryachenko V.A. Micro-meso-macro mechanical

modeling of the strength behavior of some layer-structured particle reinforced metal matrix

composites. EUROMECH-MECAMAT'96. Local Approach Fracture. Fontainebleau, France, 1996.

96. Plankensteiner A. F., Rammerstorfer F.G.,Buryachenko V.A.,Hackl G. Micro-meso-macro

mechanical modeling of the strength behavior of tool steel. 4th Int. Tooling Conf.: Progress in Tool

Steels. - Eds. H. Berns, H.F. Hinz., I.M. Hucklenbroich. Ruhr--Universitat Bochum, Bochum. 1996,

481-489.

97. Buryachenko V.A., Rammerstorfer F.G. On the thermoelasticity of random structure composites with

thin-walled hollow inclusions. Abst. of IUTAM Symp. on Mech. of Granular and Porous Materials.

Cambridge, UK, 1996.

98. Buryachenko V. A., Rammerstorfer F. G. Micromechanics and nonlocal effects in graded random

structure matrix composites. (Invited speaker).IUTAM Symp. on Transformation Problems in

Composite and Active Composite and Active Materials. Eds. Y. A. Bahei-El-Din and G. J. Dvorak.

Kluwer Academic Publ., Dordrecht, 197-206.

99. Buryachenko V. A. Stochastic aspects of micromechanics of elastic random structure graded

composites. McNU'97.The 1997 Joint ASME/ASCE/SES Summer Meeting. Norris, USA, p. 423.

100. Buryachenko V. A. Stochastic aspects of thermo-elasticity of random structure composites. Abst.

of McNU'97. The 1997 Joint ASME/ASCE/SES Summer Meeting. Norris, USA, p. 453.

101. Buryachenko V. A., Rammerstorfer F. G. Local effective properties and average stresses in elstic

random structure composites. 13th U.S.Nat. Congress of Theor. and Applied Mechanics. Florida,

USA. 1998, sect.TB8.

102. Buryachenko V. A. Micromechanics of nonlocal effects in elastic random structure composites.

Euromech Colloquium 378: Nonlocal Aspects in Solid Mechanics. Mulhouse, France. 1998.

103. Buryachenko V. A. Stochastic aspects in micromechanics of random structure composites. Int.

Mech. Engng Congress & Exposition. The Winter Annual Meating of ASME. Anaheim. 1998.In.

Mechanical Behavior of Advanced Materials. Eds.: C. Davis, A. M. Sastry, M. L. Dunn, A. K. Roy.

ASME, N. Y.. 289-290.

104. Buryachenko V. A. Stress fluctuations near a crack tip in ceramic materials and effective energy

release rate. Fracture Mechanics of Ceramics, V.13: Crack-Microstructure interection, R-Curve

Behavior, Environmental Effects in Fracture, and Standartization. Eds. R.C. Brand, M. Sakai, D.

Munz, V. Y. Shevchenko, K. W. White. Kluver Akad Publ, Norvell MA. 2002, 47-62

105. Buryachenko V. A. Internal residual stresses in elastically homogeneous solids: Stress fluctuations

near a crack and effective energy release rate. Fifth U.S. Nat. Congr. Comput. Mechanics, Boulder,

USA August 1999.

Valeriy Buryachenko

106. Buryachenko V. A. Internal residual stresses in elastically homogeneous solids: Stress fluctuations

near a crack and effective energy release rate. Ibid.

107. Buryachenko V. A. Thermoelastic stress fluctuations in random structure composites and some

nonlinear problems of micromechanics. Ibid.

108. Buryachenko V. A. Nonlocal effective properties of composite materials with random and

periodical structures. Ibid.

109. Buryachenko V. A. Micromechanical local model of elastic-plastic deformation of metal matrix

random structure composites. Fourth Int. Conf. on Constitutive Laws for Engng Mater.:

Experiment, Theory, Computation Applications.Eds. R. C. Picu, E. Krempl. 1999, 78-81. Troy, NY.

110. Buryachenko V. A. Micromechanics of nonlocal effects in functionally graded composites.

Congress of IUTAM, Chicago, 2000.

111. Pagano N.J., Buryachenko V. A. Multiscale analysis and edge effect of multiple interaction

inclusion problem. 2000. Ibid.

112. BuryachenkoV.A. Micromechanics of non-local effects in heterogeneous materials. 2001

Mechanics and Materials summer conference. La Jolla, CA, 2001.

113. Buryachenko V.A., Pagano N.J. Multiscale modeling for multi-interacting inclusion problems

including edge effect. Ibid. 2001.

114. Buryachenko V. A. Micromechanics and nonlocal effects of functionally graded materials. Thermal

Stresses, Blacksburg, VA. 2003.

115. Buryachenko V. A. Micromechanics of random structure composites. American Mathematical

Society (AMS) Sectional Meeting, Baton Rouge, 2003.

116. Buryachenko, V. A. and Roy. A. Effective elastic moduli of nanocomposites with prescribed

random orientation of nanofibers. Proceeding of 2004Nanotechnology Conference and Trade Show.

v. 2, pp. 419-421, Boston, USA.

117.Buryachenko V. A. and Roy A. Modeling for thermoelastic properties of advanced nanocomposites

of random reinforcement. 8th Int. Conf. on Numerical Methods in Industrial Forming Processes.

Columbus, 2004 (Keynote lecture).

118. Schoeppner G., Buryachenko V. A. Micromechanics of nonlocal effects in functionally graded

composites. XXI Congress of IUTAM, 2004, Warsaw, Poland.

119. Roy. A., Buryachenko V. A. Effective thermoelastic properties of nanocomposites. Ibid.

120. Buryachenko, V. A. Homogenization of triply periodic particulate matrix composites with imperfect

unit cells. Ibid.

121. Buryachenko, V. A. and Roy, A. (2005) Effective thermoelastic properties of nanocomposites with

length distribution of nanofibers. 2005 Joint ASME/ASCE/SES Conference on Mechanics and

Materials (McMAT2005), Baton Rouge, Louisiana, June 2005.

122. Chellapilla, S., Buryachenko, V. A., Anderson, K. L., Roy A. (2005) Multi-scale materials modeling

of composites: Molecular dynamic vis-à-vis mean effective field method. 5th Canadian-International

Composite Conference (CANCOM2005). Vancouver, August 2005.

123.Buryachenko V. A., Roy A., Kushch V. I., Dutka V. A. (2005g) Effective elastic properties of

nanocomposites with random orientation of cylindrical nanofibers. ASME Dayton Engineering

Science Symposium. Dayton,

124. Buryachenko, V. A. and Roy, A. (2006) Effective thermoelastic properties of nanocomposites with

random orientation of nanofibers. PACAM VIII. Eight Pan American Congress of Applied

Mechanics, Merida, Mexico.

Valeriy Buryachenko

125. Buryachenko, V. A. (2008) Computational analytical micromechanics of random structure

composites: some basic concepts and prospective. (Assigned to a Lecture Session, but not

presented). XXII Congress of IUTAM, Adelaide, Australia, August 2008.

126. Kushch V., Buryachenko V. Statistical description of the

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