Mechanics of Nanofibers and their Networks






                                                                                                 Related Publications

  1. D. Das and I. Chasiotis, “Rate Dependent Adhesion of Nanoscale Polymer Contacts,” Journal of the Mechanics and Physics of Solids 156, pp. 104597, (2021).

  2. D. Das, I. Chasiotis, “Sliding of Adhesive Nanoscale Polymer Contacts,” Journal of the Mechanics and Physics of Solids 140, pp. 103931, (2020).

  3. K. Şahin, J. K. Clawson, J. Singletary, I. Chasiotis, “Shear Strength of Homopolymer and Copolymer Aramid Fibers,” Polymer 186, pp. 122034, (2020).

  4. J. Liu, D. Das, Y. Fan, A. Schwartz, S. Thomopoulos, G.M. Genin, I. Chasiotis, “Energy Dissipation in Mammalian Collagen Fibrils: Cyclic Strain-induced Damping, Toughening, and Strengthening”, Acta Biomaterialia 80, pp. 217–227, (2018).

  5. P.V. Kolluru, I. Chasiotis, “A master curve for the size and strain rate dependent large deformation behavior of PS nanofibers at room temperature”, Polymer 99, pp. 544-551, (2016).

  6. D. Das, B. Power, J.P. Martin, R.G. Polcawich, I. Chasiotis, “Role of Oxide Seed Layer in Plastic Response of Epitaxially Grown Textured Metal Films”, Acta Materialia 112, pp. 390-402, (2016).

  7. N. Karanjgaokar, I. Chasiotis, “Creep Behavior of Nanocrystalline Au Films as a Function of Temperature”, Journal of Materials Science 51, pp. 3701-3714, (2016).

  8. H. G. Chae, B. A. Newcomb, P. V. Gulgunje, Y. Liu, K. K. Gupta, M. G. Kamath, K. M. Lyons, S. Ghoshal, C. P., L. Giannuzzi, K. Sahin, I. Chasiotis, and S. Kumar “High Strength and High Modulus Carbon Fibers”, Carbon 93, pp. 81-87, (2015).

  9. P.V. Kolluru, I. Chasiotis, “Interplay of Molecular and Specimen Length Scales in the Large Deformation Mechanical Behavior of Polystyrene Nanofibers”, Polymer 56, pp. 507-515, (2015).

  10. M. Naraghi, P.V. Kolluru, and I. Chasiotis, “Time and Strain Rate Dependent Mechanical Behavior of Amorphous Polymeric Nanofibers”, Journal of the Mechanics and Physics of Solids 62, pp. 257–275, (2014).

  11. T. Ozkan, D. Shaddock, D.M. Lipkin, I. Chasiotis, “Mechanical strengthening, stiffening, and oxidation behavior of pentatwinned Cu nanowires at near ambient temperatures”, Materials Research Express 1, pp. 035020-1 – 18, (2014).

  12. P. V. Kolluru, J. Lipner, L. Wenying, Y. Xia, S. Thomopoulos, G.M. Genin and I. Chasiotis, “Strong and Tough Mineralized PLGA Nanofibers for Tendon-to-bone Scaffolds”, Acta Biomaterialia 9, pp. 9442–9450, (2013).

  13. K. Hanschmidt, T. Tätte, I. Hussainova, M. Part, H. Mändar, K. Roosalu, I. Chasiotis, “Optimization of Mechanical Strength of Titania Microfibers Fabricated by Direct Drawing”, Applied Physics A: Materials Science and Processing 113, pp. 663-671, (2013).

  14. T. Ozkan, Q. Chen, and I. Chasiotis, “Interfacial Strength and Fracture Energy of Individual Carbon Nanofibers in Epoxy Matrix as a Function of Surface Conditions”, Composites Science and Technology 72, pp. 965-975, (2012).

  15. F.V. Stump, N. Karanjgaokar, P.H. Geubelle, and I. Chasiotis, “A Multiscale Model of Rate Dependence of Nanocrystalline Thin Films”, Journal for Multiscale Computational Engineering 10(5), pp 441-459, (2012).

  16. S. Yagnamurthy, I. Chasiotis, J. Lambros, R. Polcawich, J. Pulskamp, M. Dubey, “Mechanical and Ferroelectric Behavior of PZT Thin Films,” Journal of Microelectromechanical Systems 20, pp. 1250-1258, (2011).

  17. L. Sun, N. Karanjgaokar, K. Sun, I. Chasiotis, W.C. Carter, S. Dillon, “High-Strength All-Solid Lithium Ion Electrodes Based on Li4Ti5O12”, Journal of Power Sources 196, pp. 6507–6511, (2011).

  18. M. Naraghi, S. Arshad, and I. Chasiotis, “Molecular Orientation and Mechanical Property Size Effects in Electrospun Polyacrylonitrile Nanofibers”, Polymer 52, pp. 1612-1618, (2011).

  19. S.N. Arshad, M. Naraghi, and I. Chasiotis, “Strong Carbon Nanofibers from Electrospun Polyacrylonitrile”, Carbon 49, pp. 1710-1719, (2011).

  20. N. Karanjgaokar, C. Oh, and I. Chasiotis, “Microscale Experiments at Elevated Temperatures Evaluated with Digital Image Correlation”, Experimental Mechanics 51, pp. 609-618, (2011).

  21. M. Naraghi, T. Ozkan, I. Chasiotis, S. S. Hazra, and M. P. de Boer “MEMS platform for on-chip nanomechanical experiments with strong and highly ductile nanofibers”, Journal of Micromechanics and Microengineering 20, pp. 125022-1-9, (2010).

  22. K. Jonnalagadda, N. Karanjgaokar, I. Chasiotis, J. Chee, and D. Peroulis, “Strain Rate Sensitivity of Nanocrystalline Au Films at Room Temperature”, Acta Materialia 58, pp. 4674-4684, (2010).

  23. J. Kimberley, J. Lambros, I. Chasiotis, R. Polcawich, J. Pulskamp, and M. Dubey, “Mechanics of energy transfer and failure of ductile microbeams subjected to dynamic loading”, Journal of the Mechanics and Physics of Solids 58, pp. 1125–1138, (2010).

  24. T. Ozkan, M. Naraghi, and I. Chasiotis, “Mechanical Properties of Vapor Grown Carbon Nanofibers”, Carbon 48, pp. 239-244, (2010).

  25. M. Naraghi and I. Chasiotis, “Optimization of Comb-driven Devices for Mechanical Testing of Polymeric Nanofibers Subjected to Large Deformations” Journal of Microelectromechanical Systems 18 (5), pp. 1032-1046, (2009).

  26. M. Naraghi, I. Chasiotis, Y. Dzenis, Y. Wen, and H. Kahn, “Novel Method for Mechanical Characterization of Polymeric Nanofibers”, Review of Scientific Instruments 78, pp. 085108, (2007).

  27. M. Naraghi, I. Chasiotis, Y. Dzenis, Y. Wen, H. Kahn, “Mechanical deformation and failure of electrospun polyacrylonitrile nanofibers as a function of strain rate”, Applied Physics Letters 91, pp. 151901, (2007).

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