{"id":101,"date":"2017-09-05T14:49:36","date_gmt":"2017-09-05T14:49:36","guid":{"rendered":"https:\/\/sites.wp.odu.edu\/cmsl\/?page_id=101"},"modified":"2025-04-11T15:11:40","modified_gmt":"2025-04-11T15:11:40","slug":"group-members","status":"publish","type":"page","link":"https:\/\/sites.wp.odu.edu\/cmsl\/group-members\/","title":{"rendered":"Publications"},"content":{"rendered":"

JOURNAL PUBLICATIONS:<\/strong><\/span><\/p>\n

    \n
  1. S. Sattar, M. Didone, O. G. Kravchenko, S. G. Kravchenko, \u201cUnderstanding the Effects of Stochastic Morphology on Compressive Behavior in Freeze-Casted Alumina Ceramic\u201d, under review<\/li>\n
  2. N. Saquib, E. Chaparro-Chavez, S. Sattar, D. Pedrazzoli, M. Zhang, S. G. Kravchenko, O. G. Kravchenko, \u201cEffect of Local Meso-Structure on Strength Variability and Notch Strength Sensitivity in Woven Glass Fiber Nylon Composites, under review<\/li>\n
  3. C. Jamora, C. M Sherin, S. Dong, B. Bhattacharjee, K. Kaipa, O. G. Kravchenko, \u201cThe Effect of Prepreg Laminate Thickness on Transverse Fiber Tow Deformation during Deposition of AFP Composites, under review<\/li>\n
  4. D. Bhagatjia, T. Osunigaa, G. Fernandeza, O. G. Kravchenko, \u201cEnhanced Mechanical Behavior of Additively Manufactured Polymer Composite Structures with Complex Shape Geometry via Hot Powder Bed Compaction\u201d, under review<\/li>\n
  5. Revolinsky, J. Barber, D. Pedrazzoli, O. G. Kravchenko<\/strong>, \u201cHot Pressing of 3D Printed Nylon Composites with Short and Long Carbon Fiber Reinforcement: Effect of Temperature and Pressure,\u201d Polymers, 2025<\/li>\n
  6. A. Larson, M. N. Saquib, J. Li, A. J. Favaloro, D. E. Sommer, B. R. Denos, R. B. Pipes, S. G. Kravchenko, O. G. Kravchenko<\/strong>, \u201cThe Use of Digital Thread for Reconstruction of Local Fiber Orientation in A Compression Molded Pin Bracket via Deep Learning<\/a>,\u201d Composites Part A: Applied Science and Manufacturing<\/em> 187, 108491, 2024.<\/em><\/li>\n
  7. Saquib, E. Chaparro-Chavez, C. Morris, K. Culebi, D. Pedrazzoli, M. Zhang, S. G. Kravchenko, O. G. Kravchenko<\/strong>, \u201cRestoration of Strength in Polyamide Woven Glass Fiber Organosheets by Hot Pressing: Case Study of Impact and Compression after Impact<\/a>,\u201d vol. 16, Polymers<\/em>, 2024.<\/li>\n
  8. D. Bhagatji, O. G. Kravchenko<\/strong>, \u201cHot Powder Bed Compaction: A Rapid Fabrication Approach for Thermoplastic Composite Components<\/a>,” Manufacturing Letters<\/em>, 2024, vol. 40<\/li>\n
  9. D. Bhagatji, C. Morris, Y. Sridhar, B. Bhattacharjee, K. Kaipa, O. G. Kravchenko<\/strong>, “Effect of Post-Cured through Thickness Reinforcement on Disbonding Behavior in Skin\u2013Stringer Configuration<\/a>,\u201d Materials<\/em>, 2024, 17 (14).<\/li>\n
  10. Sattar, D. Pedrazzoli, M. Zhang, O. G. Kravchenko, \u201cInfluence of Flow-Induced Crystallization and Morphological Changes on the Mechanical Behavior of Long Discontinuous Glass Fiber Polyamide Composite<\/a>,\u201d Composites Part A<\/em>, vo. 185, 2024<\/li>\n
  11. Bhagatji, O. G. Kravchenko, S. Asundi, \u201cMechanics of Pure Bending and Eccentric Buckling in High Strain Composite Structures<\/a>,\u201d Materials<\/em>, 2024.<\/li>\n
  12. Larson, R. Hoque, V. Jamora, J. Li, S. G. Kravchenko, O. G. Kravchenko, \u201cPrediction of Local Fiber Orientation State in Prepreg Platelet Molded Composites via Deep Convolutional Neural Network<\/a>,\u201d Engineering Applications of Artificial Intelligence<\/em>, 2024<\/li>\n
  13. Barber, H. Eisazadeh, O. G. Kravchenko, \u201cInvestigation of Iso-Static Compaction on Fracture Toughness of 3D Printed Nylon Carbon Fiber Composites<\/a>,\u201d Progress in Additive Manufacturing<\/em>.<\/li>\n
  14. Saquib, S. Sattar, R. Larson, J. Li, S. G. Kravchenko, O. G. Kravchenko, \u201cExperimental Validation of Microstructure Reconstruction in Long Discontinuous Fiber Molded Composite Using Deep Learning<\/a>,\u201d Applied Mechanics<\/em>, 91(4): 041004, 2024<\/li>\n
  15. C. Jamora, V. Rauch, S. G. Kravchenko, O. G. Kravchenko, \u201cEffect of resin bleed out on compaction behavior of the fiber tow gap region during automated fiber placement manufacturing<\/a>\u201d, Polymers, 2024<\/em><\/li>\n
  16. D. Mulqueen, S. Sattar, O. G. Kravchenko, \u201cPlant Based Graphene for Enhancing Hot Temperature Mechanical Properties in Thermosetting Carbon Fiber Laminates\u201d, Composites Part B<\/em>, Feb. 2023<\/li>\n
  17. Larson, V. C. Jamora, S. G. Kravchenko, O. G. Kravchenko, \u201cThe Effect of Core Material on the Mechanical Behavior of Compression Molded Glass Fiber Thermosetting Hybrid Composites,\u201d Journal of Reinforced Plastics and Composites<\/em>, Dec. 2022<\/li>\n
  18. Sattar, D. Pedrozzoli, M. Zhang, S. G. Kravchenko, O. G. Kravchenko \u201cNotched Tensile Strength of Long Discontinuous Glass Fiber Reinforced Nylon Composite,<\/a>\u201d Composites Part A: Applied Science and Manufacturing<\/em> 163, 107217<\/li>\n
  19. Sattar, B. Laredo, S. G. Kravchenko, O. G. Kravchenko, \u201cEffect of Platelet Length and Stochastic Morphology on Flexural Behavior of Prepreg Platelet Molded Composites<\/a>,\u201d Polymer Composites, 2023<\/em><\/li>\n
  20. D. Mulqueen, S. Sattar, T. Le, O. G. Kravchenko, \u201cSpray Deposition of Sustainable Plant Based Graphene in Thermosetting Carbon Fiber Laminates for Mechanical, Thermal and Electrical Properties<\/a>, Polymer Composites<\/em>, Dec. 2022<\/li>\n
  21. Larson, F. Leone, A. Bergan, O. G. Kravchenko, \u201cInfluence of Stochastic Adhesive Porosity and Material Variability on Failure Behavior of Adhesively Bonded Composite Sandwich Joints<\/a>,\u201d Composites Structures<\/em>, Dec. 2022<\/li>\n
  22. Jain, S. Sattar, D. Malqueen, D. Pedrazzoli, S.G. Kravchenko, O. G. Kravchenko, \u201cRole of Annealing and Isostatic Compaction on Mechanical Properties of 3D Printed Short Glass Fiber Nylon Composites<\/a>,\u201d Additive Manufacturing<\/em>, Jan. 2022<\/li>\n
  23. Sattar, B. Laredo, D. Pedrazzoli, M. Zhang, O. G. Kravchenko, \u201cMechanical Behavior of Discontinuous Glass Fiber Nylon Produced by In-Situ Polymerization<\/a>,\u201d Composites Part A<\/em>, March 2022<\/li>\n
  24. Volle, W. Jackson, S. G. Kravchenko, O. G. Kravchenko, \u201cCompression After Impact of Platelet Based Compression Molded Composites<\/a>,\u201d Composites Part A, <\/em>2021<\/li>\n
  25. Trochez, D. Ghosh, C. Wu, V. C. Jamora, O. G. Kravchenko, \u201cHigh Strain Rate Mechanical Characterization of Composites Produced by Automated Fiber Placement with Layup Defects<\/a>,\u201d published in Journal of Composite Materials<\/em>, 2021<\/li>\n
  26. S. Sattar, R. Jujjavarapu, S. G Kravchenko, O. G Kravchenko, Micromechanical modeling of compressive behavior in freeze\u2010casted ceramic<\/a>,” Journal of the American Ceramic Society, 06\/22\/2020<\/li>\n
  27. V. C. Jamora, K. C. Wu, O. G. Kravchenko, “Residual Deformation Analysis in Composite Shell Structures Manufactured using Automated Fiber Placement<\/a>,” Composite Structures, 05\/21\/2020<\/li>\n
  28. M. Suresh, A. Sanders, P. Prajapati, K. Kaipa, O. G. Kravchenko, “Composite Sandwich Repair using Through-Thickness Reinforcement with Robotic Hand Micro-Drilling<\/a>,” Composite Structures, 05\/17\/2020<\/li>\n
  29. A. Patel, S. Mekala, O. G. Kravchenko, T. Yilmaz, D. Yuan, L. Yue, R. A. Gross, I. Manas-Zloczower, \u201cDesign and formulation of a completely biobased epoxy structural adhesive<\/a>\u201d ACS Sustainable Chemistry & Engineering, 9\/18\/2019<\/li>\n
  30. O. G. Kravchenko, V. S. Bonab, I. Manas-Zloczower, \u201cSpray Assisted Microwave Welding of Thermoplastics<\/a>,\u201d Polymer Engineering and Science, 2019\u00a0<\/li>\n
  31. O. G. Kravchenko, D. Pedrazzoli, V. S. Bonab, I. Manas-Zloczower, \u201cConductive Interlaminar Interfaces for Structural Health Monitoring in Composite Laminates under Fatigue Loading<\/a>,\u201d Materials and Design<\/em>, Vol. 160, pp. 1217-1225\u00a0<\/li>\n
  32. O. G. Kravchenko, G. Gedler, D. L. Feke, I. Manas-Zloczower, \u201cModeling Compressive Behavior of Open-Cell Polymerized High Internal Phase Emulsions: Effects of Density and Morphology<\/a>,\u201d Soft Matter<\/em>, Vol. 14, pp. 1637-1646, 2018<\/li>\n
  33. A. Patel, O. G. Kravchenko, I. Manas-Zloczower, \u201cEffect of Curing Rate on the Microstructure and Macroscopic Properties of Epoxy Fiberglass Composites<\/a>,\u201d Polymers<\/em> Vol. 10, Issue 2, p. 125<\/li>\n
  34. X. Qian, O. G. Kravchenko, D. Pedrazzoli, I. Manas-Zloczower, \u201cEffect of Polycarbonate Film Surface Finish and Plasma Treatment on Mode I and II Fracture Toughness of Interleaved Composite Laminates<\/a>,\u201d Composites Part A<\/em>, Vol. 105, pp. 138-149<\/li>\n
  35. O. G. Kravchenko, D. Pedrazzoli, D. Kovtun, X. Qian, I. Manas-Zloczower, \u201cIncorporation of Plasma Functionalized Carbon Nanostructures in Composite Laminates for Interlaminar Reinforcement and Delamination Crack Monitoring<\/a>,\u201d Journal of Physics and Chemistry of Solids<\/em>, Vol. 112, pp. 163-170<\/li>\n
  36. O. G. Kravchenko, R. Misiego, X. Qian, S. G. Kravchenko, R. B. Pipes, I. Manas-Zloczower, \u201cRole of Hierarchical Morphology of Helical Carbon Nanotube Bundles on Thermal Expansion of Polymer Nanocomposites<\/a>,\u201d\u00a0 Journal of Materials Research<\/li>\n
  37. O. G. Kravchenko, S. G. Kravchenko, R. B. Pipes, \u201cCure History Dependence of Residual Deformation in Thermosetting Composite Laminates<\/a>\u201d, Composites Part A: Applied Science and Manufacturing, Vol. 99, pp. 186-197, Aug. 2017.<\/li>\n
  38. O. G. Kravchenko, S. G. Kravchenko, C. T. Sun, \u201cThickness Dependence of Mode I Interlaminar Fracture Toughness in Carbon Fiber Thermosetting Composite<\/a>,\u201d Composite Structures, Vol. 160, pp. 538-546, Jan. 2017.<\/li>\n
  39. O. G. Kravchenko, R. Misiego, S. G. Kravchenko, R. B. Pipes, I. Manas-Zloczower, \u201cModeling of Hierarchical Morphology of Carbon Nanotube Bundles in Polymer Composites<\/a>,\u201d Macromolecular Theory and Simulations, Oct. 2016.<\/li>\n
  40. Y. Xie, O. G. Kravchenko, R. B. Pipes, M. Koslowski, \u201cPhase Field Modeling of Damage in Glassy Polymers<\/a>,\u201d Journal of the Mechanics and Physics of Solids, Vol. 93, pp. 182-197, Aug 2016.<\/li>\n
  41. O. G. Kravchenko, S. G. Kravchenko, R. B. Pipes, \u201cChemical and Thermal Shrinkage in a Thermosetting Prepreg<\/a>\u201d, Composites Part A: Applied Science and Manufacturing, Vol. 80, pp. 72-81, Jan 2016.<\/li>\n
  42. O. G. Kravchenko, S. G. Kravchenko, A. Casares R. B. Pipes, \u201cDigital Image Correlation Measurement of Resin Chemical and Thermal Shrinkage after Gelation<\/a>,\u201d Journal of Materials Science, Vol. 50, pp. 5244-5252, Aug 2015.<\/li>\n
  43. S. G. Kravchenko, O. G. Kravchenko, L. A. Carlsson, R. B. Pipes, \u201cInfluence of Through- Thickness Reinforcement Aspect Ratio on Mode I Delamination Fracture Resistance<\/a>,\u201d Composite Structures, Vol. 125, pp. 13-22, 2015.<\/li>\n
  44. O. G. Kravchenko, C. Li, A. Strachan, S. G. Kravchenko, R. B. Pipes, \u201cPrediction of the Chemical and Thermal Shrinkage in a Thermoset Polymer<\/a>,\u201d Composites Part A: Applied Science and Manufacturing, Vol. 66, pp. 35-43, Nov. 2014.<\/li>\n
  45. S. G. Kravchenko, O. G. Kravchenko, C. T. Sun, \u201cTwo-Parameter Fracture Mechanics Model for Fatigue Crack Propagation in Brittle Materials<\/a>,\u201d Journal of Engineering Fracture Mechanics, Vol. 119, pp. 132-147, Mar 2014.<\/li>\n
  46. S. Kravchenko, O. Kravchenko, M. Wortmann, M. Pietrek, P. Horst, R. B. Pipes, \u201cComposite Toughness Enhancement with Interlaminar Reinforcement<\/a>,\u201d Composites Part A: Applied Science and Manuf., Vol. 54, pp. 98-106, Nov. 2013.<\/li>\n
  47. J. Goodsell, N. J. Pagano, O. Kravchenko, R. B. Pipes, \u201cInterlaminar Stresses in Composite Laminates Subjected to Anticlastic Bending Deformation<\/a>,\u201d Journal of Applied Mechanics, 1, pp. 426, 2012.<\/li>\n<\/ol>\n

    Link to publications<\/a><\/p>\n

    CONFERENCES AND INVITED PRESENTATIONS<\/u><\/strong><\/p>\n\n\n\n
    \n
      \n
    1. W. Mulqueen, S. Xiao, O. G. Kravchenko<\/strong>, \u201cMULTIFUNCTIONAL PROPERTIES OF COMPOSITES WITH CONDUCTIVE COATINGS USING RENEWABLE PLANT BASED GRAPHENE FROM BIOMASS WASTE SOURCES,\u201d SAMPE, Indianapolis, 2025<\/li>\n
    2. R. Sinkler, A. Ravangard, S. Zeid, Barron Cohen, T. Garstka, O. G. Kravchenko<\/strong>, \u201cFRAMEWORK FOR PREDICTING RESIDUAL STRESS IN FILAMENT WOUND CFRP LAMINATE DURING CURE,\u201d SAMPE, Indianapolis, 2025<\/li>\n
    3. Ravangard, O. G. Kravchenko<\/strong>, \u201cREDUCING OUT-OF-PLANE FIBER WAVINESS IN AFP PREFORMS BY SELECTIVE PLACING OF THERMOPLASTIC VEILS,\u201d SAMPE, Indianapolis, 2025<\/li>\n
    4. Mulqueen, A. Sinkler, O. G. Kravchenko<\/strong>, \u201cMultifunctional graphene from renewable plant based sources and its impact on high temperature composite properties and flame resistance,\u201d High TEMPE Conference, Ashville, NC, 2025<\/li>\n
    5. N. Saquib, R. Larson, J. Li, S. G. Kravchenko, O. G. Kravchenko<\/strong>, \u201cReconstruction of Internal Morphology in Molded Platelet Composite using Residual Stresses and Deep Convolutional Neural Network,\u201d paper\/presentation, CAMX, Long Beach, Sept. 2024.<\/li>\n
    6. D. Bhagatji, T. Osuniga, G. Fernandez, O. G. Kravchenko<\/strong>, \u201cInvestigation of Hot Powder Bed Compaction for Enhanced Fusion Bonding in Additive Manufacturing of Composite Component,\u201d paper\/presentation, CAMX, Long Beach, Sept. 2024.<\/li>\n
    7. N. Saquib, R. Larson, J. Li, S. G. Kravchenko, O. G. Kravchenko<\/strong>, Residual Stress and Artificial Intelligence Enabled Morphology Reconstruction of a Molded Composite, SPE ACCE, Novi, MI, Sept. 2024.<\/li>\n
    8. D. Bhagatji, T. Osuniga, G. Fernandez, O. G. Kravchenko<\/strong>, \u201cFlexible Fusion Process via Hot Powder Bed Compaction: Case for Additive Manufacturing of Topology Optimized Structures, SAMPE, Long Beach, CA, May 2024<\/li>\n
    9. Mulqueen, O. G. Kravchenko<\/strong>, Producing Multifunctional PA6\/Organosheet Composites with Sustainable Plant Based Graphene Coatings, SAMPE, Long Beach, CA, May 2024<\/li>\n
    10. D. Bhagatji, O. G. Kravchenko<\/strong>, Hot Powder Bed Compaction: A Rapid Fabrication Approach for Thermoplastic Composite Prepreg Components, paper\/presentation, The Sixth International Symposium on Automated Composites Manufacturing, Columbia, SC, March 2024.<\/li>\n
    11. Morris, J. Bhagatji, K. Kaipa, O. G. Kravchenko<\/strong>, The Effect of Through Thickness Reinforcement on the Disbonding Behavior in Skin-Stringer Configuration, presentation, The Sixth International Symposium on Automated Composites Manufacturing, Columbia, SC, March 2024.<\/li>\n
    12. Ravangard, V. C. Jamora, J. D. Bhagatji, O. G. Kravchenko<\/strong>, \u201cMechanics of Resin Rich Regions Formation in AFP Preform with Staggered Fiber Tow Gaps,\u201d presentation, The Sixth International Symposium on Automated Composites Manufacturing, Columbia, SC, March 2024.<\/li>\n
    13. Sattar, O. G. Kravchenko, \u201cEffects of Stochastic Morphology on Compressive Behavior of Freeze-Casted Alumina Ceramic,\u201d presentation, ICACC Daytona Beach, 2024<\/li>\n
    14. Saquib, \u201cRestoration of Strength in Polyamide Woven Glass Fiber Organsheet After Impact Using Hot Pressing Repair,\u201d conference paper\/presentation Automotive Composites Conference and Exhibition, Novi 2023<\/li>\n
    15. Jamora, A. Rangavard, O. G. Kravchenko<\/strong>, \u201cSignificance of Staggered AFP Tow Gaps on Complex Cured Morphology and Failure,\u201d conference paper\/presentation at American Society for Composites, Sept. 2023<\/li>\n
    16. Larson, J. Li, S. G. Kravchenko, O. G. Kravchenko<\/strong>, Spatial Through Thickness Fiber Orientation Prediction in a Platelet Molded Composite using Deep Learning,\u201d conference paper\/presentation at American Society for Composites, Sept. 2023.<\/li>\n
    17. Larson, S. G. Kravchenko, J. Li, O. G. Kravchenko, \u201cDeep Learning and Thermal Strain Vision for Reconstruction of Fiber Orientation Distribution in Geometrically Complex Molded Composite Parts,\u201d SAMPE, Seattle, 2023<\/li>\n
    18. C. Jamora, C. Sherin, S. Dong, B. Bodhisatwa, K. Kaipa, O. G. Kravchenko<\/strong>, \u201cFiber Tow Spreading during AFP Manufacturing,\u201d paper\/presentation at SAMPE, Seattle, April 2023.<\/li>\n
    19. Sattar, M. Zhang, D. Pedrazzoli, O. G. Kravchenko<\/strong>, Effect of Flow-Induced Crystallization and Morphological Changes on the Mechanical Behavior of Long Discontinuous Glass Fiber Polyamide Composite, paper\/presentation, SAMPE, Seattle, April 2023.<\/li>\n
    20. C. Jamora, O. G. Kravchenko<\/strong>, \u201cProcess Modeling of a Quasi-isotropic Laminate with Multiple Embedded Staggered Tow Gaps\u201d, AIAA SciTech, Jan. 2023.<\/li>\n
    21. Sherin, S. Dong, V. Jamora, B. Bhattacharjee, K. Kaipa, O. G. Kravchenko<\/strong>, \u201cEffect of Surface Compliance on Tow Widening as a Function of Compaction Force and Temperature During Automated Fiber Placement,\u201d AIAA SciTech, Jan. 2023.<\/li>\n
    22. Bhagatji, O. G. Kravchenko<\/strong>, S. Asundi, \u201cLarge Deformation Bending of Ultralight Deployable Structure For Nano- Micro-Class Satellites,\u201d AIAA SciTech, Jan. 2023<\/li>\n
    23. G. Kravchenko<\/strong>, S. Sattar, D. Pedrazzoli, M. Zhang, \u201cHole Size Sensitivity in Long Discontinuous Glass Fiber Reinforced Nylon Organosheets,\u201d SPE ACCE 2022, Novi, Michigan<\/li>\n
    24. G. Kravchenko<\/strong>, S. Sattar, \u201cImproving Mechanical Properties of 3D Printed Short Glass Fiber Nylon Composites by Compaction,\u201d SPE ACCE 2022, Novi, Michigan<\/li>\n
    25. Saquib, S. Sattar, R. Larson, J. Li, S. G. Kravchenko, O. G. Kravchenko<\/strong>, \u201cReconstruction of Fiber Orientation Distribution in Molded Composites using Deep Learning,\u201d SPE ACCE 2022, Novi, Michigan<\/li>\n
    26. Jamora, B. Laredo, O. G. Kravchenko<\/strong>, \u201cModeling of Wrinkle Formation in Non-Crimp Dry Fabric during Preform Compaction,\u201d SPE ACCE, 2022<\/li>\n
    27. Dillulio, O. G. Kravchenko<\/strong>, K. Cigularov, \u201cEnabling Resilient Educational Support Network during COVID-19 Pandemic for Undergraduate and Second Career Seeking Students,\u201d poster and paper at ASEE Conference, Minnesota, 2022<\/li>\n
    28. Sattar, O. G. Kravchenko<\/strong>, \u201cMechanics of Open Hole Failure in Nylon Based Discontinuous Glass Fiber Organosheets,\u201d presentation at Johns Manville Corp., Denver, 2022<\/li>\n
    29. Sattar, D. Pedrazzoli, M. Zhang, O. G. Kravchenko<\/strong>, \u201cNotched Tensile Strength of Long Discontinuous Glass Fiber Reinforced Nylon Composite,\u201d Society for the Advancement of Material and Process Engineering , May 23-26 2022<\/li>\n
    30. Mulqueen, O. G. Kravchenko, \u201cFracture Toughness of Carbon Fiber Epoxy at Elevated Temperatures with Interlaminar Graphene,\u201d Society for the Advancement of Material and Process Engineering, May 23-26, 2022<\/li>\n
    31. C. Jamora, V. Rauch, S. G. Kravchenko, O. G. Kravchenko<\/strong>, \u201cMechanics of Fiber Tow Compaction for Predicting Defect Morphology in AFP composites,\u201d paper\/presentation at AIAA SciTech Forum and Exhibition, San Diego, Jan. 3-7, 2022<\/li>\n
    32. Larson, R. Hoque, V. C. Jamora, J. Li, S. G. Kravchenko, O. G. Kravchenko<\/strong>, \u201cHyperparameters Effect in Deep Convolutional Neural Network Model on Prediction of Fiber Orientation Distribution in Prepreg Platelet Molded Composites,\u201d paper\/poster\/presentation at AIAA SciTech Forum and Exhibition, San Diego, California, Jan. 3-7 2022<\/li>\n
    33. Mulqueen, O. G. Kravchenko<\/strong>, \u201cImproving Thermal and Electrical Conductivity of Thermosetting Composites with Plant-Based Graphene,\u201d paper\/poster\/presentation at SPE ACCE, Novi, Michigan, Nov. 2-5 2021<\/li>\n
    34. Larson, F. Leone, A. Bergan, O. G. Kravchenko<\/strong>, \u201cNumerical Study of Unavoidable Material Variability Effects on Damage Development Within Composite Adhesively Bonded Joints,\u201d abstract\/poster\/presentation at SPE ACCE, Novi, Michigan, Nov. 2-5 2021<\/li>\n
    35. Larson, J. Li, S. G. Kravchenko, O. G. Kravchenko<\/strong>, \u201cMachine Learning Approach for Prediction of Fiber Orientation Distribution in Molded Composites,\u201d abstract\/presentation at SPE ACCE, Novi, Michigan, Nov. 2-5 2021<\/li>\n
    36. Sattar, B. B. Laredo, R. Larson, S. G. Kravchenko, O. G. Kravchenko<\/strong>, \u201cEffect of Platelet Length and Stochastic Morphology on Flexural Behavior of Prepreg Platelet Molded Composites\u201d, paper\/presentation at SPE ACCE, Novi, Michigan, Nov. 2-5 2021<\/li>\n
    37. Larson, J. Li, S. G. Kravchenko, O. G. Kravchenko<\/strong>, \u201cMachine Learning Approach for Prediction of Fiber Orientation Distribution in Molded Composites,\u201d2nd Workshop on Knowledge Guided Machine Learning, University of Minnesota, Aug. 18-20 2021<\/li>\n
    38. Sattar, B. Laredo, D. Pedrazzoli, M. Zhang, O. G. Kravchenko<\/strong>, \u201cUnderstanding Size Effects on Flexural Properties in Discontinuous Fiber Reinforced Nylon Composites,\u201d Conference proceedings at Composites and Advanced Materials Expo<\/em>, Society for the Advancement of Material and Process Engineering (SAMPE), Sept. 2020<\/li>\n
    39. Larson, A. Bergan, F. Leone, O. G. Kravchenko<\/strong>, \u201cUnderstanding Variability in Mechanical Behavior of Adhesively Bonded Joints due to Stochastic Material Damage,\u201d Paper\/presentation at 35th<\/sup> American Society for Composites, Sept. 2020<\/li>\n
    40. Sattar, B. Laredo, D. Pedrazzoli, M. Zhang, O.<\/strong> G. Kravchenko<\/strong>, \u201cUnderstanding Size Effects on Flexural Properties in Discontinuous Fiber Reinforced Nylon Composites,\u201d Poster at Automotive Composites Conference and Exhibition, Society of Plastics Engineers, Novi, MI, Sept. 2020<\/li>\n
    41. C. Jamora, C. Wu, O.<\/strong> G. Kravchenko<\/strong>, \u201cResidual Deformation Analysis in Composite Shell Structures Manufactured using Automated Fiber Placement<\/em>,\u201d Presentation\/poster at Automotive Composites Conference and Exhibition, Society of Plastics Engineers, Novi, MI, Sept. 2019<\/li>\n
    42. Larson, A. Newman, S. G. Kravchenko, O.<\/strong> G. Kravchenko<\/strong>, \u201cThe Effect of Print Path on Damage Initiation and Propagation in Additively Manufactured Open Hole Coupons<\/em>,\u201d Paper\/presentation\/poster at Automotive Composites Conference and Exhibition, Society of Plastics Engineers, Novi, MI, Sept. 2020<\/li>\n
    43. Wang, S. Dong, P. Prajapati, O. G. Kravchenko<\/strong>, K. Kaipa, \u201cCombining Force-Controlled Adaptive Feedrate and Human-Robot Collaborative Strategies to Handle Non-repetitive Micro-drilling Tasks<\/em>,\u201c 2020 IEEE 16th International Conference on Automation Science and Engineering (CASE), Aug. 2020.<\/li>\n
    44. M. Raibagi, P. S. J. Monteiro, R. K. Pallam, A. Murthy, A. Gadag, S. Asundi, O. G. Kravchenko<\/strong>, \u201cGlue-infused Rotating Nanofibers Net (GRoNNet) for Capturing Space Debris – A Novel Debris Capturing System<\/em>,\u201d 34th Annual AIAA\/USU Small Satellite Conference, July 2020<\/li>\n
    45. G. Kravchenko<\/strong>, P. Dullilio, K. Cigularov, \u201cUnderstanding the Demands and Resources for Academic Success of Undergraduate Second Career<\/em>, Traditional, and Graduate Engineering Students,\u201d Paper\/presentation at American Society of Engineering Education, Montreal, June 21-24, 2020<\/li>\n
    46. G. Kravchenko<\/strong>, T. Vandecar-Burdin, P. Dullilio, K. Cigularov, \u201cOpportunities in Manufacturing of Advanced Materials for Second Career Seeking Students<\/em>,\u201d Paper\/presentation at American Society of Engineering Education, Montreal, June 21-24, 2020<\/li>\n
    47. G. Kravchenko<\/strong>, S. Sattar, S. G. Kravchenko, \u201cUnderstanding the Stochastic Variability in Ice-Templated Ceramic through Micro-Mechanical Modeling<\/em>,\u201d Invited presentation\/<\/strong>abstract at American Ceramic Society Meeting, Daytona Beach, Feb. 2020<\/li>\n
    48. Sattar, S. G. Kravchenko, O. G. Kravchenko<\/strong>, \u201cMicromechanical Modeling of Ice-Templated Porous Ceramics using Smeared Cracking Approach<\/em>,\u201d Abstract\/presentation at American Ceramic Society Meeting, Daytona Beach, Feb. 2020<\/li>\n
    49. Suresh, A. Sanders, P. Prajapati, K. Kaipa, O. G. Kravchenko<\/strong>, \u201cComposite Sandwich Repair using Through-Thickness Reinforcement with Robotic Hand Microdrilling<\/em>,\u201d paper\/poster\/presentation at Automotive Composites Conference and Exhibition, Society of Plastics Engineers, Novi, MI, Sept. 2019<\/li>\n
    50. G. Kravchenko<\/strong>, \u201cRole of Thermo-Chemical Shrinkage on Dimensional Stability of Composites,\u201d Invited presentation<\/strong> at Future Generation Symposium on Composite Materials (Shirahama, Japan) and Kyoto University, Aug. 2019<\/li>\n
    51. G. Kravchenko<\/strong>; S. Sattat, D. Ghosh, \u201cComputational Micromechanical Modeling of Compressive Behavior for Freeze-Casted Porous Ceramic<\/em>,\u201d Invited presentation<\/strong>\/abstract submitted to American Ceramic Society Meeting, Daytona Beach, Feb. 2019<\/li>\n
    52. G. Kravchenko<\/strong>, \u201cSupporting Composite Materials Design and Manufacturing using Process Modeling and Structure-Property Relationships<\/em>,\u201d Invited presentation<\/strong> at Johns Manville Inc., Denver, CO, Jan. 2019<\/li>\n
    53. Larson, S. Way, G. D\u2019Antonio, V. C. Jamora, J. D\u2019Antonio, J. Harris, K. Allard, O. G. Kravchenko<\/strong>, \u201cMechanical Behavior of Compression Molded Hybrid Composites<\/em>,\u201d paper\/presentation at Automotive Composites Conference and Exhibition, Society of Plastics Engineers, Novi, MI, Sept. 2018<\/li>\n
    54. Valdivia, B. Beltran, A. Bain, K. Lentz, R. Bell, R. McFarland, K. Bobie, M. Story, P. Rafighi, J. Pauley, H. Moyopo, O.G. Kravchenko<\/strong>, \u201cApplication of Hybrid Compression Molded Composites for Design and Manufacturing of Rear Suspension Rocker Automotive Component<\/em>,\u201d poster at Automotive Composites Conference and Exhibition, Society of Plastics Engineers, Novi, MI, Sept. 2018<\/li>\n
    55. G. Kravchenko<\/strong>, \u201cTransforming Composite Materials Design through Process Modeling and Advanced Manufacturing<\/em>,\u201d Invited presentation<\/strong>,<\/em> STIHL Inc., Sept. 2018<\/li>\n
    56. G. Kravchenko<\/strong>, \u201cSupporting Composite Materials Design and Manufacturing using Process Modeling and Structure-Property Relationships<\/em>,\u201d Invited presentation<\/strong>,<\/em> Hampton Roads Advanced Manufacturing Summit, August 2018<\/li>\n
    57. G. Kravchenko<\/strong>, \u201cTransforming Composite Materials Design through Process Modeling and Advanced Manufacturing<\/em>,\u201d Invited presentation<\/strong>,<\/em> NASA Langley Research Center, July. 2018<\/li>\n
    58. Qian, O. G. Kravchenko<\/strong>, D. Pedrazzoli, I. Manas-Zloczower, \u201cEffect of Polycarbonate Film Surface Finish and Plasma Treatment on Mode I and II Fracture Toughness of Interleaved Composites<\/em>,\u201d paper\/presentation at 32st<\/sup> American Society for Composites (ASC) Technical Conference, West Lafayette, Indiana, 2017<\/li>\n
    59. G. Kravchenko<\/strong>, S. G. Kravchenko, R. B. Pipes, \u201cAnalysis of Cure Dependent Residual Deformation in Thermosetting Composites<\/em>,\u201d paper\/presentation at American Society for Composites Annual Technical Conference, West Lafayette, IN, Oct. 2017<\/li>\n
    60. Kravchenko<\/strong>, G. Gedler, D. Feke, I. Manas-Zloczower, \u201cMicromechanical Modeling of the Compressive Response of Poly(HIPE)<\/em>,\u201d abstract\/presentation American Chemical Society National Meeting, Washington D. C., Aug. 2017<\/li>\n
    61. Patel, O. Kravchenko<\/strong>, L. Yue, D. Yuan, R. Gross, I. Manas-Zloczower, \u201cToughened Biobased Epoxy Nanocomposites as Structural Adhesive<\/em>,\u201d abstract\/presentation at American Chemical Society National Meeting, Washington D. C., Aug. 2017<\/li>\n
    62. G. Kravchenko<\/strong>, D. Pedrazzoli, I. Manas-Zloczower, \u201cFatigue and Structural Health Monitoring of Delamination in Composite Materials<\/em>,\u201d Keynote presentation<\/strong> at Polymer Processing Society Conference, Dresden, Germany, June, 2017<\/li>\n
    63. G. Kravchenko<\/strong>, D. Pedrazzoli, D. Kovtun, I. Manas-Zloczower, \u201cMultifunctional Ply Interphases in Hierarchical Composite Laminates<\/em>,\u201d paper\/presentation at Annual Technical Conference of Society of Plastics Engineers, Anaheim, CA, May, 2017<\/li>\n
    64. G. Kravchenko<\/strong>, S. G. Kravchenko, C. T. Sun, \u201cApparent Fracture Toughness in Brittle Materials under Static and Fatigue Loading<\/em>,\u201d abstract and presentation for 41th International Conference and Exposition on Advanced Ceramics and Composites, Daytona Beach, FL, Jan 2017<\/li>\n
    65. G. Kravchenko<\/strong>, S. G. Kravchenko, R. B. Pipes, \u201cChemical and Thermal Induced Shrinkages in Thermosetting Composite<\/em>,\u201d Invited presentation<\/strong>, National Institute for Aviation Research, Wichita, KS, Sept. 2016<\/li>\n
    66. G. Kravchenko<\/strong>, R. Misiego, S. G. Kravchenko, R. B. Pipes, I. Manas-Zloczower, \u201cRelation between morphology and thermo-elastic properties of carbon nanotube polymer hybrid composite<\/em>,\u201d paper\/presentation at 31st<\/sup> American Society for Composites (ASC) Technical Conference, Williamsburg, Virginia, 2016<\/li>\n
    67. G. Kravchenko<\/strong>, R. B. Pipes, \u201cCure History Dependent Residual Deformation in Thermosetting Composite Laminates<\/em>,\u201d Invited presentation<\/strong> at 12h<\/sup> International Conference on Durability of Composite Systems, Arlington, TX, June 2016<\/li>\n
    68. Pedrazzoli, O. G. Kravchenko<\/strong>, I. Manas-Zloczower, \u201cInterlaminar Fracture Toughness of Woven Glass Fiber-Epoxy Laminates with Carbon Nanotube Buckypaper<\/em>,\u201d paper\/presentation at Society of Plastics Engineers ANTEC Conference, Indianapolis, IN, May 2015<\/li>\n
    69. G. Kravchenko<\/strong>, R. B. Pipes, \u201cPrediction of Residual Deformation in Thermosetting Composites Due to Cure<\/em>,\u201d presentation for 40th International Conference and Exposition on Advanced Ceramics and Composites, Daytona Beach, FL, Jan 2016<\/li>\n
    70. G. Kravchenko<\/strong>, S. G. Kravchenko, R. B. Pipes, \u201cResidual Cure Stress Buildup in Thermosetting Composite: Modeling and Experimental Validation<\/em>,\u201d paper\/presentation for 30th<\/sup> ASC Technical Conference, Michigan, MI, Sep. 2015<\/li>\n
    71. G. Kravchenko, O. G. Kravchenko<\/strong>, R. B. Pipes, \u201cA Novel Through Thickness Reinforcement Method of Cured Composites<\/em>,\u201d paper\/presentation for 30th<\/sup> ASC Technical Conference, Michigan, MI, Sep. 2015<\/li>\n
    72. G. Kravchenko<\/strong>, Y. Xie, M. Koslowski, \u201cPhase Field Modeling of Crack Propagation in Double Cantilever Beam under Mode I<\/em>,\u201d Society of Engineering Science (SES) Annual Technical Meeting, West Lafayette, IN, Oct 2014<\/li>\n
    73. G. Kravchenko<\/strong>, R. B. Pipes, \u201cChemical and Thermal Shrinkage in Thermosetting Composite<\/em>,\u201d Invited presentation<\/strong>, NASA John H. Glenn Research Center, Cleveland, OH, March 2015<\/li>\n
    74. G. Kravchenko<\/strong>, S. G. Kravchenko, R. B. Pipes, \u201cAnalysis of Bi-material Strip Specimen for Predicting Cure Induced Shrinkages<\/em>,\u201d paper\/presentation for 29th<\/sup> ASC Technical Conference, San-Diego, CA, Sep 2014<\/li>\n
    75. G. Kravchenko<\/strong>, R. B. Pipes, \u201cPrediction of Chemical and Thermal Shrinkage in Thermoset Polymer<\/em>,\u201d Invited presentation<\/strong>, Evonik Industries, Lafayette, IN, Apr 2014<\/li>\n
    76. G. Kravchenko<\/strong>, R. B. Pipes, \u201cDesign of Optimum Cure Cycle for Polymeric Composites<\/em>,\u201d Invited presentation<\/strong>, Rolls-Royce Global Research Team, Indianapolis, IN, Jul 2013<\/li>\n
    77. O. Kravchenko<\/strong>, C. T. Sun, \u201c<\/span>Effect of Specimen Dimensions on Interlaminar Fracture Toughness of Composites<\/em>,\u201d paper\/presentation for 27<\/span>th<\/sup> ASC Technical Conference, Arlington, TX, Sep 2012<\/span><\/li>\n<\/ol>\n<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n\n\n
      \n

      <\/p>\n<\/div><\/div>\n\n\n\n

      <\/p>\n","protected":false},"excerpt":{"rendered":"

      JOURNAL PUBLICATIONS: S. Sattar, M. Didone, O. G. Kravchenko, S. G. Kravchenko, \u201cUnderstanding the Effects of Stochastic Morphology on Compressive Behavior in Freeze-Casted Alumina Ceramic\u201d, under review N. Saquib, E. Chaparro-Chavez, S. Sattar, D. Pedrazzoli, M. Zhang, S. G. Kravchenko,… Continue Reading →<\/a><\/p>\n","protected":false},"author":6960,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"jetpack_post_was_ever_published":false,"footnotes":""},"jetpack_sharing_enabled":true,"jetpack_shortlink":"https:\/\/wp.me\/P9azNq-1D","jetpack-related-posts":[{"id":107,"url":"https:\/\/sites.wp.odu.edu\/cmsl\/group-member\/","url_meta":{"origin":101,"position":0},"title":"Group Members","author":"okravche","date":"September 5, 2017","format":false,"excerpt":"\u00a0 \u00a0 Dr. Oleksandr G. Kravchenko has joined Old Dominion University after completing his doctoral work at Purdue University (West Lafayette, Indiana) and post-doctoral work at Case Western Reserve University (Cleveland, Ohio). His main research interests are in the area of developing computational structure-property relationship models of composite materials, which\u2026","rel":"","context":"Similar post","block_context":{"text":"Similar post","link":""},"img":{"alt_text":"","src":"https:\/\/i0.wp.com\/sites.wp.odu.edu\/cmsl\/wp-content\/uploads\/sites\/4488\/2020\/12\/CMM-photo-Fall-2020.png?resize=350%2C200","width":350,"height":200,"srcset":"https:\/\/i0.wp.com\/sites.wp.odu.edu\/cmsl\/wp-content\/uploads\/sites\/4488\/2020\/12\/CMM-photo-Fall-2020.png?resize=350%2C200 1x, https:\/\/i0.wp.com\/sites.wp.odu.edu\/cmsl\/wp-content\/uploads\/sites\/4488\/2020\/12\/CMM-photo-Fall-2020.png?resize=525%2C300 1.5x"},"classes":[]},{"id":724,"url":"https:\/\/sites.wp.odu.edu\/cmsl\/automated-fiber-placement\/","url_meta":{"origin":101,"position":1},"title":"Automated Fiber Placement","author":"okravche","date":"December 19, 2020","format":false,"excerpt":"The research work is centered around the effect of manufacturing defects, such as fiber tow imperfections, on the mechanical behavior of composites. We are working on the following problems: Understanding the mechanics of compaction and defect formation of the deposited AFP composites Process modeling of different stages during AFP process\u2026","rel":"","context":"Similar post","block_context":{"text":"Similar post","link":""},"img":{"alt_text":"","src":"https:\/\/i0.wp.com\/sites.wp.odu.edu\/cmsl\/wp-content\/uploads\/sites\/4488\/2023\/08\/AFP-Robotic-head.png?resize=350%2C200&ssl=1","width":350,"height":200},"classes":[]},{"id":707,"url":"https:\/\/sites.wp.odu.edu\/cmsl\/overview\/","url_meta":{"origin":101,"position":2},"title":"Overview","author":"okravche","date":"December 19, 2020","format":false,"excerpt":"At CMM group our research is focused on studying mechanics of materials, specifically various composites. We are interested in novel composite manufacturing technology and the related problems. Our core efforts are related to computational modeling of failure, physics-based process modeling, material characterization and mechanical testing. The ongoing research projects cover\u2026","rel":"","context":"Similar post","block_context":{"text":"Similar post","link":""},"img":{"alt_text":"","src":"https:\/\/i0.wp.com\/sites.wp.odu.edu\/cmsl\/wp-content\/uploads\/sites\/4488\/2022\/04\/Collaborators-Sponsors.jpg?resize=350%2C200&ssl=1","width":350,"height":200,"srcset":"https:\/\/i0.wp.com\/sites.wp.odu.edu\/cmsl\/wp-content\/uploads\/sites\/4488\/2022\/04\/Collaborators-Sponsors.jpg?resize=350%2C200&ssl=1 1x, https:\/\/i0.wp.com\/sites.wp.odu.edu\/cmsl\/wp-content\/uploads\/sites\/4488\/2022\/04\/Collaborators-Sponsors.jpg?resize=525%2C300&ssl=1 1.5x, https:\/\/i0.wp.com\/sites.wp.odu.edu\/cmsl\/wp-content\/uploads\/sites\/4488\/2022\/04\/Collaborators-Sponsors.jpg?resize=700%2C400&ssl=1 2x, https:\/\/i0.wp.com\/sites.wp.odu.edu\/cmsl\/wp-content\/uploads\/sites\/4488\/2022\/04\/Collaborators-Sponsors.jpg?resize=1050%2C600&ssl=1 3x, https:\/\/i0.wp.com\/sites.wp.odu.edu\/cmsl\/wp-content\/uploads\/sites\/4488\/2022\/04\/Collaborators-Sponsors.jpg?resize=1400%2C800&ssl=1 4x"},"classes":[]}],"_links":{"self":[{"href":"https:\/\/sites.wp.odu.edu\/cmsl\/wp-json\/wp\/v2\/pages\/101"}],"collection":[{"href":"https:\/\/sites.wp.odu.edu\/cmsl\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/sites.wp.odu.edu\/cmsl\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/sites.wp.odu.edu\/cmsl\/wp-json\/wp\/v2\/users\/6960"}],"replies":[{"embeddable":true,"href":"https:\/\/sites.wp.odu.edu\/cmsl\/wp-json\/wp\/v2\/comments?post=101"}],"version-history":[{"count":5,"href":"https:\/\/sites.wp.odu.edu\/cmsl\/wp-json\/wp\/v2\/pages\/101\/revisions"}],"predecessor-version":[{"id":1058,"href":"https:\/\/sites.wp.odu.edu\/cmsl\/wp-json\/wp\/v2\/pages\/101\/revisions\/1058"}],"wp:attachment":[{"href":"https:\/\/sites.wp.odu.edu\/cmsl\/wp-json\/wp\/v2\/media?parent=101"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}