Publications

 

  1. T. Mura, I. Jasiuk and E. Tsuchida (1985) “The Stress Field of a Sliding Inclusion,” International Journal of Solids and Structures 21, 1165-1179.
  2. I. Jasiuk, E. Tsuchida and T. Mura (1987) “The Sliding Inclusion Under Shear,” International Journal of Solids and Structures 23, 1373-1385.
  3. I. Jasiuk, T. Mura and E. Tsuchida (1988) “Thermal Stresses and Thermal Expansion Coefficients of Short Fiber Composites with Sliding Interfaces,” ASME Journal of Engineering Materials and Technology 110, 96-100.
  4. S. Shibata, I. Jasiuk, T. Mori and T. Mura (1990) “Successive Iteration Method Applied to Composites Containing Sliding Inclusions: Effective Modulus and Anelasticity,” Mechanics of Materials 9, 229-243.
  5. M. Lee and I. Jasiuk (1991) “Asymptotic Expansions for the Thermal Stresses in Bonded Semi-infinite Bi-material Strips,” ASME Journal of Electronic Packaging 113, 173-177.
  6. I. Jasiuk, E. Tsuchida and T. Mura (1991) “Spheroidal Sliding Inclusion in an Elastic Half- Space,” Applied Mechanics Reviews 44 (11), S143-S149.
  7. I. Jasiuk, J. Chen, and M.F. Thorpe (1992) “Elastic Moduli of Composites with Rigid Sliding Inclusions,” Journal of the Mechanics and Physics of Solids 40, 373-391.
  8. M. Lee, I. Jasiuk, and E. Tsuchida (1992) “The Sliding Circular Inclusion in an Elastic Half- Plane,” ASME Journal of Applied Mechanics 59, 557-564.
  9. M.F. Thorpe and I. Jasiuk (1992) “New Results in the Theory of Elasticity for Two-Dimensional Composites,” Proceedings of the Royal Society of London, Series A 438, 531-544.
  10. I. Jasiuk and M.W. Kouider (1993) “The Effect of an Inhomogeneous Interphase on the Elastic Constants of Transversely Isotropic Composites,” Mechanics of Materials 15, 53-63.
  11. S. Jun and I. Jasiuk (1993) “Elastic Moduli of 2D Composites with Sliding Inclusions – A Comparison of Effective Medium Theories,” International Journal of Solids and Structures 30, 2501-2523.
  12. I. Jasiuk, J. Chen and M.F. Thorpe (1994) “Elastic Moduli of Two Dimensional Materials with Polygonal Holes,” Applied Mechanics Reviews 47 (1, Part 2), S18-S28.
  13. M. Ostoja-Starzewski, P.Y. Sheng and I. Jasiuk (1994) “Effects of Random Geometry on Effective Properties and Damage Formation in 2-D Composites,” ASME Journal of Engineering Materials and Technology 116, 384-391.
  14. I. Jasiuk (1995) “Polygonal Cavities vis-à-vis Rigid Inclusions: Effective Elastic Moduli of Materials with Polygonal Inclusions,” International Journal of Solids and Structures 32, 407- 422.
  15. M. Ostoja-Starzewski, K. Alzebdeh and I. Jasiuk (1995) “Linear Elasticity of Planar Delaunay Networks – III: Self-consistent Approximations,” Acta Mechanica 110, 57-72.
  16. M. Ostoja-Starzewski and I. Jasiuk (1995), “Stress Invariance in Planar Elastic Cosserat Media,” Proceedings of the Royal Society of London, Series A 451, 453-470.
  17. I. Jasiuk and M. Ostoja-Starzewski (1995), “Planar Cosserat Elasticity of Multiply-connected Materials and Intrusions,” Applied Mechanics Reviews 48, S11-S18.
  18. M. Ostoja-Starzewski, I. Jasiuk, W. Wang and K. Alzebdeh (1996), “Composites with Functionally Graded Interfaces: Meso-Continuum Concept and Effective Properties,” Acta Materialia 44, 2057-2066.
  19. A. Al-Ostaz and I. Jasiuk (1997), “Effect of Interphase and Arrangement of Inclusions on the Local Stresses in Composite Materials,” Acta Materialia 45, 4131-4143.
  20. I. Jasiuk, P.Y. Sheng and E. Tsuchida (1997), “A Spherical Inclusion in an Elastic Half-Space under Shear,” ASME Journal of Applied Mechanics 64, 471-479.
  21. M. Ostoja-Starzewski, P.Y. Sheng, and I. Jasiuk (1997), “Damage Patterns and Constitutive Response of Random Matrix-Inclusion Composites,” Engineering Fracture Mechanics 58, 581- 606.
  22. A. Al-Ostaz and I. Jasiuk (1997), “Crack Initiation and Propagation in Materials with Randomly Distributed Holes,” Engineering Fracture Mechanics 58, 395-420.
  23. J. Dundurs and I. Jasiuk (1997), “Effective Elastic Moduli of Composite Materials: Reduced Parameter Dependence,” Applied Mechanics Reviews 50 (No. 11, Part 2), S39-S43.
  24. A. Al-Ostaz, I. Jasiuk, and M. Lee (1998), “An Elastic Circular Inclusion in a Half-Plane: Effect of Boundary Conditions on Stress Concentration,” ASCE Journal of Engineering Mechan­ics 124, 293-300.
  25. K. Alzebdeh, A. Al-Ostaz, I. Jasiuk, and M. Ostoja-Starzewski (1998), “Fracture of Random Matrix-inclusion Composites: Scale Effects and Statistics,” International Journal of Solids and Structures 35, 2537-2566.
  26. X. Markenscoff and I. Jasiuk (1998), “On Multiple-Connectivity and the Reduction of Constants for Composites with Body Forces,” Proceedings of the Royal Society of London A 454, 1357-1369.
  27. W. Wang and I. Jasiuk (1998), “Elastic Moduli of Particulate Composites with Inhomogeneous Interphases,” Journal of Composite Materials 32, 1391-1424.
  28. W.J. Baxter, A. Al-Ostaz and I. Jasiuk (1999), “The Effect of Shot Particles on the Fatigue of Kaowool Fiber Reinforced 339 Aluminum,” Metallurgical and Materials Transactions 30A, 195- 201
  29. M. Ostoja-Starzewski, S. Boccara, and I. Jasiuk (1999), “On Micropolar Elastic Moduli and Characteristic Length of Composite Materials,” Mechanics Research Communications 26, 387- 396.
  30. E. Tsuchida, Y. Arai, K. Nakazawa, and I. Jasiuk (2000), “The Elastic Stress Field in a Half – Space Containing a Prolate Spheroidal Inhomogeneity Subject to Pure Shear Eigenstrain,” Materials Science and Engineering A 285, 239-245.
  31. I. Jasiuk, J. Dundurs, and M. Jiang (2000), “On the Reduced Parameter Dependence of the Mori-Tanaka Theory,” Materials Science and Engineering A 285, 130-135.
  32. F. Bouyge, I. Jasiuk and M. Ostoja-Starzewski (2001), “A Micromechanically Based Couple- stress Model of an Elastic Two-phase Composite,” International Journal of Solids and Structures 38, 1721-1735.
  33. M. Jiang, M. Ostoja-Starzewski, and I. Jasiuk (2001), “Scale-dependent Bounds on Effective Elastoplastic Response of Random Composites,” Journal of the Mechanics of Physics and Solids 49, 655-673.
  34. W.J. Baxter, A. Al-Ostaz and I. Jasiuk (2001), “Mechanical and Thermal Stresses at Shot Particles during Fatigue of Kaowool Aluminum Composites at 20oC,” Journal of Materials Science 36, 1201-1212.
  35. M. Jiang, K. Alzebdeh, I. Jasiuk and M. Ostoja-Starzewski (2001), “Scale and Boundary Conditions Effects in Elasticity of Random Composites,” Acta Mechanica 148, 63-78.
  36. M. Jiang, I. Jasiuk, and M. Ostoja-Starzewski (2002), “Apparent Elastic and Elastoplastic Behavior of Periodic Composites,” International Journal of Solids and Structures 39, 199-212.
  37. F. Bouyge, I. Jasiuk, S. Boccara, and M. Ostoja-Starzewski (2002), “A Micromechanically Based Couple-Stress Model of an Elastic Orthotropic Two-phase Composite,” European Journal of Mechanics/A: Solids 21(3), 465-481.
  38. M. Jiang, I. Jasiuk and M. Ostoja-Starzewski (2002), “Apparent Thermal Conductivity of Periodic Two-dimensional Composites,” Computational Materials Science 25 (3), 329-338.
  39. I. Jasiuk and S. Boccara (2002), “On the Reduction of Constants in Plane Elasticity with Eigenstrains,” Archives of Mechanics 54, 5-16.
  40. Ji Eun Park, I. Jasiuk and A. Zubelewicz (2003), “Micromechanics-Based Interfacial Stress Analysis and Fracture in Electronic Packaging Assemblies,” ASME Journal of Electronic Packaging 125, 44-52.
  41. W.J. Baxter, A. Al-Ostaz and I. Jasiuk (2003), “Fatigue of Kaowool Reinforced Aluminum: Effect of Shot Particle Wall Thickness,” Journal of Materials Science 38, 2851-2860.
  42. M. A. Rubin, I. Jasiuk, J. Taylor, J. Rubin, T. Ganey, and R. Apkarian (2003), “TEM Analysis of the Nanostructure of Normal and Osteoporotic Human Bone,” Bone, 33, 270-282 (Figure 8B was selected for the front cover of that issue).
  43. Ji Eun Park, I. Jasiuk and A. Zubelewicz (2003), “Interfacial Stress Analysis and Fracture in Electronic Packaging Assemblies with Heterogeneous Underfill,” ASME Journal of Electronic Packaging 125, 400-413.
  44. I. Jasiuk and M. Ostoja-Starzewski (2003), “On the Reduction of Constants in Planar Cosserat Elasticity with Eigenstrains and Eigencurvatures,” Journal of Thermal Stresses 26, 1221-1228.
  45. M. A. Rubin, J. Rubin, and I. Jasiuk (2004), “SEM and TEM Study of the Hierarchical Structure of C3H/HeJ and C57BL/6J Mice Trabecular Bone,” Bone 35, 11-20.
  46. J. Taylor and I. Jasiuk (2004), “Technical Note on the Preparation of Un-decalcified Trabecular Bone for examination by TEM,” Microscopy Today (Microscopy 101), May issue, 44.
  47. I. Jasiuk and M. Ostoja-Starzewski (2004), “Modeling of Bone at a Single Lamella Level,” Biomechanics and Modeling in Mechanobiology 3, 67-74.
  48. J. Jordan, K. Jacob, R. Tannenbaum, M. Sharaf and I. Jasiuk (2005), “Experimental Trends in Polymer-Matrix Nanocomposites – A Review,” Materials Science & Engineering A 393, 1-11.
  49. M. Rubin and I. Jasiuk (2005), “The TEM Characterization of the Lamellar Structure of Osteoporotic Human Trabecular Bone,” Micron 36, 653-664.
  50. R. Tannenbaum, M. Zubris, K. David, D. Cipriani, K. Jacob, I. Jasiuk, and N. Dan (2006), “FTIR Characterization of the Reactive Interface of Cobalt Oxide Nanoparticles Embedded in Polymeric Matrices,” Journal of Physical Chemistry B 110, 2227-2232.
  51. A. Yoo and I. Jasiuk (2006), “Couple-Stress Moduli of a Trabecular Bone Idealized as a 3D Periodic Cellular Network,” Journal of Biomechanics 39, 2241-2252.
  52. J. Jordan, I. Jasiuk and A. Zubelewicz (2008), “Concentrated Force Acting on Power-Law Creep Half-Plane,” Journal of Mechanics of Materials and Structures 3, 697-705.
  53. I. Jasiuk (2009), “Stress Invariance and Exact Relations in Mechanics of Composite Materials: Extensions of the CLM Result: A Review,” Mechanics of Materials 41, 394-404.
  54. I. Hussainova, I. Jasiuk, M. Sardela, M. Antonov (2009), ”Micro-Mechanical Properties and Erosive Wear Performance of Chromium Carbide Based Cermets,” Wear 267, 152-159.
  55. C.H. Turner, S.J. Warden, T. Bellido, L.I. Plotkin, N. Kumar, I. Jasiuk, J. Dantzig, A.G. Robling (2009), “Mechanobiology of the Skeleton,” Science Signaling 2(68), pt3 1-4.
  56. C. Wang, L. Feng, and I. Jasiuk (2009), “Scale and Boundary Conditions Effects on Apparent Elastic Moduli of Trabecular Bone modelled as a Periodic Cellular Network,” ASME Journal of Biomechanical Engineering 131, 121008-1-11.
  57. N. C. Kumar, J. A. Dantzig, I. Jasiuk, A. G. Robling, C.H. Turner (2010), “Numerical Modeling of Long Bone Adaptation due to Mechanical Loading: Correlation With Experiments,” Annals of Biomedical Engineering 38, 594-604.
  58. L. Feng and I. Jasiuk (2010), “Effect of Specimen Geometry on Tensile Strength of Cortical Bone,” Journal of Biomedical Materials Research 95A, 580-587.
  59. E. Hamed, Y. Lee and I. Jasiuk (2010), “Multiscale Modeling of Elastic Properties of Cortical Bone,” Acta Mechanica 213, 131-154.
  60. L. Feng, I. Jasiuk (2010), “Multiscale Characterization of Swine Femoral Cortical Bone, Journal of Biomechanics 44, 313-320.
  61. I. Hussainova, E. Hamed, and I. Jasiuk (2011), “Nanoindentation Testing and Modeling of Chromium-Carbide Based Composites,” Mechanics of Composite Materials 46, 667-678.
  62. L. Feng, D.J. Milner, C. Xia, H.L.D. Nye, P. Redwood, J. A. Cameron, D.L. Stocum, N. Fang, I. Jasiuk (2011), “Long Bone Critical Size Defect Repair by Regeneration in Adult Xenopus Laevis Hind Limbs,” Tissue Engineering A 17(5-6), 691-701.
  63. N. Chennimalai Kumar, I. Jasiuk, J.A. Dantzig (2011), “Dissipation Energy as a Stimulus for Cortical Bone Adaptation,” Journal of Mechanics of Materials and Structures 6, 303-319.
  64. I. Hussainova, I. Jasiuk, X. Du, and M. Antonov (2011), “Characterization of Microstructure and Mechanical Properties of Cermets at Micro- and Macro- scales,” International Journal of Materials and Product Technology 40, 58-74.
  65. E.E. Novitskaya, P.-Y. Chen, E. Hamed, J. Li, V. Lubarda, I. Jasiuk, and J. McKittrick (2011), “Recent Advances on the Measurement and Calculation of the Elastic Moduli of Cortical and Trabecular Bone: A Review,” Theoretical and Applied Mechanics Journal 38(3), 209-303.
  66. N. Chennimalai Kumar, J.A. Dantzig, and I. Jasiuk (2012), “Modeling of Cortical Bone Adaptation in a Rat Ulna: Effect of Frequency,” Bone 50, 792-797.
  67. E. Hamed, E. Novitskaya, J. Li, P.-Y. Chen, I. Jasiuk, and J. McKittrick (2012), “Elastic Moduli of Untreated, Demineralized, and Deproteinized Cortical Bone: Experiments and Modeling,” Acta Biomaterialia 8, 1080-1092.
  68. R. Ambekar, M. Chittenden, I. Jasiuk, and K.C. Touissant (2012), “Investigation of Age-Related Structural Changes in Porcine Cortical Bone using Quantitative Second-Harmonic Generation Microscopy,” Bone 50, 643-650.
  69. E. Hamed, E, Y. Lee, T. Liszka, and I. Jasiuk (2012), “Multiscale Modeling of Elastic Moduli of Trabecular Bone,” Journal of the Royal Society Interface 9 (72), 1654-1673.
  70. D. Youkhanna, D. J. Griffon, P. Fredericks, D. Shaeffer, T. M. Fan, and I. M. Jasiuk (2012), “Bone Resorption Markers and Dual-Energy X-ray Absorptiometry in Dogs with Avascular Necrosis, Degenerative Joint Disease and Trauma of the Coxofemoral Joint,” Veterinary Surgery 41 (5), 551-558.
  71. E. Hamed and I. Jasiuk (2012), “Elastic Modeling of Bone at Nanostructural Level,” Materials Science and Engineering R 73(3-4), 27-49.
  72. L. Feng, M. Chittenden, J. Schirer, M. Dickinson, I. Jasiuk (2012), “Mechanical Properties of Porcine Femoral Cortical Bone Measured by Nanoindentation,” Journal of Biomechanics 45 (10), 1775-1782.
  73. K. J. Schreader, I. Bayer, D.J. Milner, E. Loth and I. Jasiuk (2012), “A Polyurethane-based nanocomposite biocompatible bone adhesive,” Journal of Applied Polymer Science 127, 4974-4982.
  74. J. Middleton, B. Burks, T. Wells, A. M. Setters, I. Jasiuk, P. Predecki, J. Hoffman and M. Kumosa (2013), “The Effect of Ozone on Polymer Degradation in Polymer Core Composite Conductors,” Polymer Degradation and Stability 98 (1), 436-445.
  75. J. Jast and I. Jasiuk (2013), “Age-related Changes in the 3D Hierarchical Structure of Rat Tibia Cortical Bone Characterized by High Resolution Micro-CT,” Journal of Applied Physiology 114, (7), 923-933.
  76. J.A. Cameron, D.J. Milner, J.S. Lee, J. Cheng, N.X. Fang, and I. Jasiuk (2013), “Employing the Biology of Successful Fracture Repair to Heal Critical Size Bone Defects,” Current Topics in Microbiology and Immunology 367, 113-132.
  77. R. Rasoulian, A. Raeisi Najafi, M. Chittenden, and I. Jasiuk (2013), “Reference Point Indentation Study of Age-Related Changes in Porcine Femoral Cortical Bone,” Journal of Biomechanics 46, 1689-1696.
  78. E. Hamed and I. Jasiuk (2013), “Multiscale damage and strength of lamellar bone modeled by cohesive finite elements,” Journal of the Mechanical Behavior of Biomedical Materials 28, 94-110.
  79. Y.-H. Lee and I. Jasiuk (2013), “Apparent Elastic Properties of Random Fiber Networks,” Computational Materials Science 79, 715-723.
  80. B. Burks, T. Wells, A. M. Setters, I. Jasiuk, and M. Kumosa (2013), “The Effect of Ozone and High Temperature on Polymer Degradation in Polymer Core Composite Conductors Polymer Degradation and Stability,” Polymer Degradation and Stability 98 (11), 2282-2290.
  81. A. Setters and I. Jasiuk (2014), “Towards a Standardized Reference Point Indentation Testing Procedure,” Journal of the Mechanical Behavior of Biomedical Materials 34, 57-65.
  82. W. Lee and I. Jasiuk (2014), “Effects of Freeze–Thaw and Micro-Computed Tomography Irradiation on Structure–Property Relations of Porcine Trabecular Bone,” Journal of Biomechanics 47, 1495-1498.
  83. E. Hamed, E. Novitskaya, J. Li, I. Jasiuk and J. McKittrick (2015), “Experimentally-based Multiscale Model of the Elastic Modulus of Trabecular Bone and its Constituents,” Materials Science and Engineering C – Materials for Biological Applications 54, 207-216.
  84. D. W. Abueidda, A. S. Dalaq, R. K. Abu Al-Rub, and I. Jasiuk (2015), “Micromechanical Finite Element Predictions of a Reduced Coefficient of Thermal Expansion for 3D Periodic Architectured Interpenetrating Phase Composites” Composite Structures 133, 85-97.
  85. M. Chittenden, A. Raeisi Najafi, J. Li, and I. Jasiuk (2015), “Nanoindentation and Ash Content Study of Age Dependent Changes in Porcine Cortical Bone,” Journal of Mechanics in Medicine and Biology 15 (5), 1550074.
  86. A. Idkaidek and I. Jasiuk (2015), “Towards a High Speed 3D Nonlinear Soft Tissue Deformation Simulation using Abaqus Software,” Journal of Robotic Surgery 9, 299-310.
  87. S. Kale, F. A. Sabet, I. Jasiuk, and M. Ostoja-Starzewski (2015), “Percolation Behavior of Polydisperse Prolate and Oblate Ellipsoids,” Journal of Applied Physics 118, 154306.
  88. F. Sabet, A. Najafi Raeisi, E. Hamed, and I. Jasiuk (2016), “Modelling of Bone Fracture and Strength at Different Length Scales– A Review,” Interface Focus 6 (1), 20150055.
  89. D. W. Abueidda, R. K. Abu Al-Rub, A. S. Dalaq, D.-W. Lee, K. A. Khan, I. Jasiuk (2016), “Effective Conductivities and Elastic Moduli of Foams with Triply Periodic Minimal Surfaces,” Mechanics of Materials 95, 102-115.
  90. A. S. Dalaq, D. W. Abueidda, R. K. Abu Al-Rub, I. Jasiuk (2016)Finite Element Prediction of Effective Elastic Properties of Interpenetrating Phase Composites with Architectured 3D Sheet Reinforcements,” International Journal of Solids and Structures 83, 169-182.
  91. J. Baró, P. Shyu, S. Pang, I. Jasiuk, E. Vives, E. K. H. Salje, and A. Planes (2016), “Avalanche Criticality During Compression of Pig Bones,” Physical Review E 93, 053001.
  92. H. M. Iftekhar Jaim, R.A. Isaacs, Sergey N. Rashkeev, Daniel P. Cole, M. LeMieux, I Jasiuk, S. Nilufar, and L.G. Salamanca-Riba (2016), “Sp2 Carbon in Al- 6061 and Al-7075 alloys in the Form of Crystalline Graphene Nanoribbons, Carbon 107, 56-66.
  93. R.I. Barabash, V. Agarwal, S. Koric, I. Jasiuk and J.Z. Tischler (2016), “Finite Element Simulation and X-ray Microdiffraction Study of Strain Partitioning in a Layered Nanocomposite,” Journal of Applied Crystallography, 4351347 (11 pages).
  94. S. Kale, F. A. Sabet, I. Jasiuk, and M. Ostoja-Starzewski (2016), “Effect of Filler Alignment on Percolation in Polymer Nanocomposites using Tunneling Percolation Model Percolation,” Journal of Applied Physics 120, 045105.
  95. D.T. O’Connor, K.I. Elkhodary, Y. Fouad, M.S. Greene, F.A. Sabet, J. Qian, Y. Zhang, W.K. Liu, I. Jasiuk (2016), “Modeling Orthotropic Elasticity, Localized Plasticity and Fracture in Trabecular Bone,” Computational Mechanics 58 (3), 423-439.
  96. M. Bakir, J.L. Meyer, J. Economy, I. Jasiuk (2016), “Heat Induced Polycondensation Reaction with Self-generated Blowing Agent Forming Aromatic Thermosetting Copolyester Foams,” Macromolecules 49 (17), 6484-6496.
  97. P. Karimi, M. Ostoja-Starzewski, I. Jasiuk (2016), “Experimental and Computational Study of Shielding Effectiveness of Polycarbonate Carbon Nanocomposites,” Journal of Applied Physics 120, 145103-1-11.
  98. A. Idkaidek, V. Agarwal and I. Jasiuk (2017), “Finite Element Simulation of Reference Point Indentation on Bone,” Journal of the Mechanical Behavior of Biomedical Materials 65, 574–583.
  99. A. Idkaidek and I. Jasiuk (2016), “Cortical Bone Fracture Analysis Using XFEM and Abaqus Software – Case Study,” International Journal for Numerical Methods in Biomedical Engineering, in press.
  100. I. Hussainova, M. Drozdova, D. Pérez-Coll, F. Rubio-Marcos, I. Jasiuk, J. A.N.T. Soares, M. A. Rodríguez, “Electroconductive composite of zirconia and hybrid graphene/alumina nanofibers,” Journal of the European Ceramic Society, in press.
  101. D. W. Abueidda, M. Bakir, R. K. Abu Al-Rub, I. Jasiuk, “Mechanical properties of 3D printed polymeric foams with triply periodic minimal surface architectures,” Materials and Design, in revision.
  102. D. W. Abueidda, F. A. Sabet, I. Jasiuk, “Modeling of Elasticity and Strength of Bone at Nanoscale,” submitted.
  103. F.A. Sabet, O. Jin, S. Koric, and I. Jasiuk, “Nonlinear Micro-CT FE Modeling of Trabecular bone – Sensitivity of Apparent Response to Tissue Constitutive Law,” submitted.
  104. M. Taleb, I. Hussainova, R. Ivanov, I. Jasiuk, “Gra phenated Ceramic Nanofibers for Highly Sensitive Simultaneous Detection of Dopamine, Uric Acid and Ascorbic Acid,”  submitted.
  105. M. Bakir, I. Jasiuk, “Novel Metal-Carbon Nanomaterials: A Review on Covetics,” submitted.
  106. M. Bakir, E. Bahceci, J.L.Meyer, J. Economy, I. Jasiuk, Aromatic Thermosetting Copolyester Foam Core and Aluminum Foam Face Three-Layer Sandwich Composite for Impact Energy Absorption,” submitted.