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Ballistic Loading and Structural Testing Lab

Publications

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  1. I. Mendoza, A. Graham, A. Matejunas, G. Hodges, C. Siviour, M. Pankow, L. Lamberson,
    Evaluation of Low-Cycle Impact Fatigue Damage in CFRPs using the Virtual Fields Method,     Journal of Dynamic Behavior of Materials. 8/3/2023.
  2. T. Thomas, A. Nisar, C. Zhang, S. Joglekar, M.Pankow, B. Bosel, A. Agarwal.High Strain Rate Response and Mechanical Performance of Tantalum Carbide-Hafnium Carbide Solution Ceramics International. (Accepted (9/21/23)
  3. C. White, J. Firth, M. Pankow. The impact of joint parameters on mechanical performance for self opening hinges using dual-matrix composites or Composite Origami. Journal of Spacecraft and Rockets (Accepted 3/28/23)
  4. M. Elamin, M. Pankow*. Rate-dependent Mechanical Response of Polypropylene Nonwovens. Journal of Applied Polymer Science (Accepted 2/9/23)
  5. C. Chadwell, M. Pankow*. The Dynamic Response of Additively Manufactured Polymers Subjected to Tensile Loading. Journal of Dynamic Behavior of Materials (Accepted 11/28/22)
  6. X. Wu, M. Pankow, T. Onuma, H.Y. Huang, K. Peters*. The Role of Material Scattering in High-Speed Polarization Filter Array Imaging. Sensors (Accepted 10/17/22)
  7. M. Pankow*, B. Justusson, M. Riosbaas, A.M.Waas, C.F. Yen. Experimental Investigation on the Deformation Response of Hybrid 3D Woven Composites Composites A (Accepted 11/5/22)
  8. G. Hodges. A Noevere, I. Velasco, D. Hackney, F. Seng, S. Schultz, K. Peters, M. Pankow. Ballistic Loading and Survivability of Optical Fiber Sensing Layers for Soft Body Armor Evaluation. Optical Fiber Technology (Accepted 9/2/22)
  9. A. Joignant, H. Bai, J. Guymon, K. Garrard, M. Pankow, D. Muddiman. Developing Transmission Mode for IR-MALDESI Mass Spectrometry Imaging. Mass Spectrometry (Accepted 8/27/22)
  10. K. Knizner, J. Guymon, K. Garrard, G. Bouvrée, J. Manni, J.P. Hauschild, K. Strupat, K. Fort, L. Earley, E. Wouters, F. Pu, A. Radosevich, N. Elsen, J. Williams, M. Pankow, D. Muddiman.Next-Generation Infrared Matrix-Assisted Laser Desorption Electrospray Ionization Source for Mass Spectrometry Imaging and High-Throughput Screening. Journal of the American Society for Mass Spectrometry (Accepted 8/31/22).
  11. M.D. Islam, H. Perera, B. Black, M. Phillips, M.J. Chen, G. Hodges, A. Jackman, Y. Liu, C.J. Kim, M. Zikry, S. Khan, Y. Zhu, M. Pankow, J.E. Ryu.
    Template-free scalable fabrication of linearly periodic microstructures by controlling ribbing defects phenomenon in forward roll coating for multifunctional applications. Advanced Materials Interfaces (Accepted 8/4/22)
  12. A. Garmabi, M. Mohammed, P. Bradford, M. Pankow, Understanding the role of bond point strain in the mechanical response of nonwoven polypropylene materials, Journal of Composite Materials 2022.
  13. M. McElroy, A. Andre, T.Goode, S. Costa, R. Olsson, M. Pankow, Use of enriched shell elements compared to solid elements for modelling delamination growth during impact on composites, Composite Structures 269, 2021.
  14. F. Seng, D. Hackney, T. Goode, A. Noevere, A. Hammond, I. Velasco, K. Peters, M. Pankow, S. Schultz Dynamic back face deformation measurement with a single optical fibre International Journal of Impact Engineering 150 2021
  15. C. Rock, R. Vadlakonda, S. Figurskey, Z. Mahbooba, C. Ledford, M.A. Garcia, H. West, T. Miller, M. Pankow, R. Dehoff, T. Horn The influence of powder reuse on the properties of nickel super alloy ATI 718TM in laser powder bed fusion additive manufacturing Met. Trans B. 52, 676-688. 2021
  16. D. Hackney, T. Goode, F. Seng, G. Shoemaker, S. Schultz, M. Pankow, K. Peters*. Survivability of integrated fiber Bragg grating sensors in ballistic protection fabrics for high velocity impact testing. Optical Fiber Technology 60 2020
  17. S. Joglekar, P. Ranatunga, M. Pankow*. Validation of an efficient finite element analysis approach for simulation of low velocity impact and compression strength after impact response. Composite Structures 255 2021.
  18. D. Hackney, T. Goode, F. Seng, G. Shoemaker, S. Schultz, M. Pankow, K. Peters. In-situ strain measurement of ballistic fabrics during impact using fiber Bragg Gratings. Optical Fiber Technology 59 2020
  19. S.Kuznetsov, M.Pankow, K. Peters, H.Y. Huang A structural-based computational model of tendon–bone insertion tissues Mathematical Biosciences 327, 2020.
  20. C. Rock, R. Vadlakonda, S. Figurskey, C. Ledford, H. West, V. Miller, M. Pankow, K. Daniels, T. Horn. Analysis of Self-Organized Patterned Surface Oxide Spots on Ejected Spatter Produced during Laser Powder Bed Fusion, Additive Manufacturing. 2020.
  21. S. Sridharan, M. Pankow. Performance Evaluation of Two Progressive Damage Models for Composite Laminates under Impact Loading, Journal of Impact Engineering 143 2020
  22. J. Firth, M. Pankow. Minimal Unpowered Strain-Energy Deployment Mechanism for Rollable Spacecraft Booms: Ground Test, Journal of Spacecraft and Rockets 57(2) 2020.
  23. G. Guo, D. Hackney, M. Pankow, K. Peters. Shape Reconstruction of Woven Fabrics using Fiber Bragg Grating Strain Sensors. Smart Materials and Structures 19(21) 2019
  24. G. Guo, M. Pankow, K. Peters. High-speed interrogation approach for FBG sensors using a VCSEL array swept source. IEEE Sensors Journal 2019
  25. M. Pankow, B. Justusson, M. Riosbaas, A.M. Waas, C.F. Yen Effect of fiber architecture on tensile fracture of 3D woven textile composites Composite Structures 2019.
  26. T. Goode, G. Shoemaker, K. Peters, S. Schultz, M. Pankow Soft Body Armor Time-Dependent Back Face Deformation (BFD)with Ballistics Gel Backing Composite Structures 220 687-698 2019.
  27. S.Kuznetsov, M.Pankow, K. Peters, H.Y. Huang Strain state dependent anisotropic viscoelasticity of tendon-to-bone insertion Mathematical Biosciences 308 , 1-7 2019.
  28. X. Wu, M.Pankow, H.Y. Huang, K. Peters, High-speed polarization imaging of dynamic collagen fiber realignment in tendon-to-bone insertion region J. Biomed. Opt. 23(11), 116002 (2018), doi: 10.1117/1.JBO.23.11.116002
  29. B. Justusson, A.M. Waas, M. Pankow, Dynamic Characterization of Composites Part II: Bi-axial Tension Journal of Dynamic Behavior of Materials 4(3),268-281
  30. B. Justusson, A.M. Waas, M. Pankow, Dynamic Characterization of Composites Part I: Uniaxial Tension Journal of Dynamic Behavior of Materials 4(3) 258-267
  31. J. Firth, M. Pankow Advanced Dual-Pull Mechanism For Deployable Spacecraft Booms Journal of Spacecraft and Rockets (Accepted)
  32. Midani, M., Seyam, A.F, Pankow, M. The effect of the Structural Parameters of 3D Orthogonal Woven Composites on their Impact Response under Different Modes of Impact Key Engineering Materials, 786, 215-223, 2018.
  33. Midani, M., Pankow, M., Seyam, A.F. The Effect of the Through Thickness Yarn Component on the In- and Out-Of-Plane Properties of Composites from 3D Orthogonal Woven Preforms Key Engineering Materials doi: 10.1080/00405000.2018.1481722
  34. Midani, M., Pankow, M., Seyam, A.F. A Generalized Analytical Model for Predicting the Tensile Behavior of 3D Orthogonal Woven Composites Using Finite Deformation Approach. Journal of the Textile Institute (Accepted Dec 2017)
  35. McElroy, M., Gutkin, R., Pankow, M. Interaction of delaminations and matrix cracks in a CFRP plate, Part II: Simulation using an enriched shell finite element model. Composites Part A 103:252-262. 2017.
  36. Wu, X., Pankow, M., Huang, H.Y.S, Peters, K., High-Speed Polarized Light Microscopy for In-Situ Dynamic Measurement of Birefringence Properties. Measurement Science and Technology 29(1). 2017.
  37. McElroy, M., Jackson, W. Olsson, R., Hellstrom, P., Tsampas, S., Pankow, M. Interaction of delaminations and matrix cracks in a CFRP plate, Part I: A test method for model validation. Composites Part A 103:314-326.2017.
  38. Flores. M., Ranatunga, P., Pankow. M., Mollenhauer, D., Beberniss, T., Rapking, D. High-Speed 3D Digital Image Correlation of Low-Velocity Impacts on Composite Plates. Composites Part B 131:153-164. 2017.
  39. Chandrasekaran, S., Pankow, M., Peters, K., Huang, H.Y.S., Composition and Structure of Porcine Digital Flexor Tendon-Bone Insertion Tissues. Journal of Biomedical Materials Research, Part A.
  40. G. Guo, D. Hackney, M. Pankow, K. Peters, Interrogation of a spectral profile division multiplexed FBG sensor network using a modified particle swarm optimization method, Measurement Science and Technology. 28(5). 2017.
  41. S. Joglekar, K. Von Hagel, S. Fergusson, M. Pankow. Exploring How Optimal Composite Design is Influenced by Model Fidelity and Multiple Objectives Composite
    Structures.     Composites Structures. vol. 160 pp. 964-975. 2017.
  42. S. Joglekar, M. Pankow. Modeling of 3D Woven Composites using the Digital Element
    Approach for Accurate Prediction of Kinking under Compressive Loads.     Composites
    Structures. vol. 160 pp. 547-559. 2017.
  43. F. Seng, D. Hackney, T. Goode, L. Shumway, A. Hammond, G. Shoemaker, M. Pankow, K. Peters, S. Schultz. Split-Hopkinson Bar Measurement Using High-Speed Full-Spectrum Fiber Bragg Grating Interrogation. Applied Optics, vol.55, Issue 25 pp. 7179-7185. 2016.
  44. P.S.L. Anderson, J. LaCosse, M. Pankow. Point of impact: the effect of size and speed on puncture mechanics. Journal of the Royal Society Interface Focus. In Press
  45. B. McWilliams, J. Yu, M. Pankow, and C.F. Yen, Ballistic Impact Behavior of Woven Ceramic Fiber Reinforced Metal Matrix Composites, International Journal of Impact Engineering   66  57-66, 2015.
  46. M. Pankow, A. Quabili and C.F. Yen, Hybrid Three-Dimension (3-D) Woven Thick Composite Architectures in Bending, JOM  86 (2), 255-260, 2014.
  47. B. Justusson, M.Pankow, C. Heinrich, M. Rudolph, and A.M. Waas, Use of a shock tube to determine the bi-axial yield of aluminum alloy under high rates , International Journal of Impact Engineering  58, 55-65, 2013.
  48. M. Pankow, A.M. Waas, and C.F. Yen, Modeling the response of 3d textile composites under compressive loads to predict compressive strength , Computer, Materials & Continua  32(2), 81-106, 2013.
  49. D. Zhang, A. M. Waas, M. Pankow, C. F. Yen, and S. Ghiorse, Flexural behavior of a layer-to-layer orthogonal interlocked three-dimensional textile composite , Journal of Engineering Materials and Technology  134(3), 031009, 2012.
  50. M. Pankow, A.M. Waas, C.F. Yen, and S. Ghiorse, Modeling the response, strength and degradation of 3d woven composites subjected to high rate loading , Composite Structures  94(5), 1590-1604, 2012.
  51. M. Pankow, A.M. Waas, C.F. Yen, and S. Ghiorse, Shock loading of 3d woven composites: A validated finite element investigation , Composite Structures  93(5), 1347-1362, 2011.
  52. M. Pankow, B. Justusson, A. Salvi, A.M. Waas, C.F. Yen, and S. Ghiorse, Shock response of 3d woven composites: An experimental investigation , Composite Structures  93(5), 1337-1346, 2011.
  53. M. Pankow, A.M. Waas, C.F. Yen, and S. Ghiorse, Resistance to delamination of 3d woven textile composites evaluated using end notch flexure (enf) tests: Cohesive zone based computational results , Composites Part A: Applied Science and Manufacturing  42(12), 1863-1872, 2011.
  54. M. Pankow, A. Salvi, A.M. Waas, C.F. Yen, and S. Ghiorse, Resistance to delamination of 3d woven textile composites evaluated using end notch flexure (enf) tests: Experimental results , Composites Part A: Applied Science and Manufacturing  42(10), 1463-1476, 2011.
  55. M. Pankow, A. Salvi, A.M. Waas, C.F. Yen, and S. Ghiorse, Split hopkinson pressure bar testing of 3d woven composites , Composites Science and Technology  71(9), 1196-1208, 2011.
  56. M. Pankow, B. Justusson, and A.M. Waas, Three-dimensional digital image correlation technique using single high-speed camera for measuring large out-of-plane displacements at high framing rates , Applied Optics  49(17), 3418-3427, 2010.
  57. M. Pankow, A.M. Waas, C.F. Yen, and S. Ghiorse, A new lamination theory for layered textile composites that account for manufacturing induced effects , Composites Part A: Applied Science and Manufacturing  40(12), 1991-2003, 2009.
  58. M Pankow, C Attard, and A M Waas, Specimen size and shape effect in split hopkinson pressure bar testing , The Journal of Strain Analysis for Engineering Design  44(8), 689-698, 2009.
  1. B. Hearley, E. Pineda, B. Bednarcyk, S. Murman, M. Pankow, Micromechanics Modeling of Textiles for Re-Entry Parachute Applications, NASA/TM-20205011621
  2. R. Bigger, B. Blaysat, C. Boo, M. Grewer, J. Hu, M. Iadicola, A, Jones, E. Jones, M, Klein, P. Lava, M. Pankow, K. Raghavan, P. Reu, T. Schmidt, T. Siebert, M. Simonsen, A. Trim, D. Turner, A. Vieira, T. Wiekert. A good Practices Guide for Digital Image Correlation. iDICs Society. 2017
  3. M. Pankow, A. Quabili, S. Whittie, C.F. Yen. Rail Shear and Short Beam Shear Properties of Various 3-Dimensional (3-D) Woven Composites. ARL-TR-7576. 2016
  4. M. Pankow, A. Quabili, S. Whittie and C.F. Yen, Tensile and Laterally Confined Compression Properties of Various 3-Dimensional (3-D) Woven Composites, ARL Tech Report 7143
  5. M. Pankow, A.M. Waas, B. Bednarcyk, Blast loading of epoxy panels using a shock tube , NASA/TM 2010-216941
  1. M.R. Pankow and A.M. Waas, 3D Textile Composites: Mechanical Properties , Wiley Encyclopedia of Composites  John Wiley & Sons, Inc.,  2012.
  1. B. Hearley, E. Pineda, B. Bednarcyk, S. Murman, M. Pankow, Predicting Fiber Breakage Failure Mode of Plain Weave Fabrics with Multiscale Recursive Mechanics, AIAA SciTech 2023.
  2. N. Sesar, D. Mollenhauer, D. Rapking, M. Pankow, Analysis of Progressive Damage in 3D Woven Composites Using Overheight Compact Tension and Compact Compression. American Society for Composites, 2022.
  3. K.T. Knizner; J.P. Guymon; K.P. Garrard; G. Bouvrée; J.P. Hauschild; K. Strupat; K.L. Fort; L. Earley; E.R. Wouters; F.Pu; A.J. Radosevich; N.L. Elsen; J.D. Williams; M.R. Pankow; D.C. Muddiman, Next Generation Infrared Matrix-Assisted Laser Desorption Electrospray Ionization Source for Mass Spectrometry Imaging and High-Throughput Screening, ASMS Minneapolis 2022.
  4. G. Hodges, M.Pankow Modeling Micrometeoroid and Orbital Debris Impact on Composite Truss Tubes, Society for Experimental Mechanics, Summer 2022
  5. P. Eaton, S. Furst, N. Cates, L. Micklow, M. Pankow Simulation and Comparative Metrology of Diamond Dies, Metal Molds, and Replicated Microlens Arrays for Mass Fabrication, American Society for Precision Engineering, 2021.
  6. G. Hodges, M. Pankow, Characterizing Dual Matrix Composite Origami Deployment, American Society for Composites, 2021.
  7. K. Berkowitz, R. Guha, O. Idolor, M. Pankow, L. Grace Impact Damage Detection Limits of Microwave NDE Technique for Polymer Composites, American Society for Composites, 2021.
  8. M. Pankow, J. Giliberto, B. Hearley, B. Justusson, J. Schaefer, V. Ranatunga. Challenges Towards Developing a High Fidelity Database for Validating High Strain Rate Composite Material Models. SciTech 2021.
  9. F. Baber, R. Hall, B. Justusson, V. Ranatunga, J. Schaefer, M. Pankow, I. Guven, An Improved Peridynamic Approach for Predicting of Low Velocity Impact Damage in Fiber Reinforced Composites
  10. C. Zhang, T. Thomas, J. Joglekar, M. Pankow, B. Boesl, A. Agarwal, High Strain Impact Behavior of Spark Plasma Sintered Tantalum-Hafnium Carbides Solid Solutions Materials Science & Technology, 2020
  11. B. Adamcik, J. Firth, M. Pankow, Impact of Storage Time and Operational Temperature on Deployable Composite Booms, AIAA Scitech 2020
  12. G. Guo, B. Hearley, M. Pankow, K. Peters, VCSEL Based FBG Sensor Network Interrogator for Lightning Strike Testing of Airframes, CLEO, 2019
  13. G. Hodges, D. Hackney, A. Noevere, K. Peters, M. Pankow, Understanding Kevlar Deformation During Ballistic Impact Using and Integrated FBG Sensor, American Society for Composites, Atlanta, GA, 2019
  14. N.Sesar, M. Flores,, M. Pankow, Investigating Progressive Damage via Biaxial Bending, American Society for Composites, Atlanta, GA, 2019
  15. T. Goode, M. Pankow, Exploring the Use of Digital Thread for Efficient Design of Composite Structures, American Society for Composites, Atlanta, GA, 2019
  16. B. Hearley, K. Peters, M. Pankow, Development of a New Testing Method to Capture Progressive Damage in Carbon Fiber Reinforced Polymers Subject to a Simulated Lightning Strike, Society for Experimental Mechanics, 2019
  17. X. Wu, M. Pankow, H.Y. Huang, T. Onuma, K. Peters. High-speed polarization imaging of dynamic collagen fiber realignment, SES Conference 2019.
  18. T. Goode, M. Pankow Motivated Learning Through Supersonic Ping Pong Balls, ASEE-SE, Raleigh, NC 2019.
  19. J. Firth, M. Pankow, Minimal Unpowered Strain-Energy Deployment, Mechanism for Rollable Spacecraft Booms, SciTech Conference, San Diego, CA, 2019
  20. Wong, A. R.; Dow, T. A.; Pankow, M. Focused Ion Beam Milling of Microscale Features. American Society for Precision Engineering, 33rd Annual Meeting, Las Vegas, NV. 2018
  21. I. Velasco, F. Seng, D. Hackney, T. Goode, A. Noevere, G. Shoemaker, K. Peters, M. Pankow, and S. Schultz, “Dynamic Body Armor Testing Using Optical Fiber Sensors,” 22nd Test Instrumentation Workshop, Las Vegas, May 2018.
  22. N. Sesar, G. Hodges, M. Pankow, Evaluation of Compression Strength After Impact of Low Velocity Impact, Proceedings of the American Society for Composites: 33rd Technical Conference, American Society for Composites, Seattle, WA, 2018.
  23. T. Goode, M. McElroy, N. Sesar, M. Pankow, Computationally Efficient Damage and Residual Strength Predictions using Progressive Damage Failure Analysis (PDFA) with an Enriched Shell Element, Proceedings of the American Society for Composites: 33rd Technical Conference, American Society for Composites, Seattle, WA, 2018.
  24. T. Goode, M. McElroy, M. Pankow, Progressive Damage Failure Analysis (PDFA) for Compression Strength After Impact Simulations Using an Enriched Shell Element, 13th World Congress on Computational Mechanics 2018.
  25. M. Midani, A.F. Seyam, M. Pankow. The Effect of the Structural Parameters of 3D Orthogonal Woven Composites on their Impact Responses Under Different Modes of Impact. International Conference on Materials Science and Engineering, Alexandria – Egypt. 2018
  26. D. Hackney, T. Goode, K. Peters , M. Pankow, F. Seng, S. Schultz , G. Shoemaker In-situ measurements of strain in soft body armor with FBG sensors during ballistic impacts, Optical Fiber Sensors 2018.
  27. D. Hackney, F. Seng, A. Noevere, T. Goode, G. Shoemaker, M. Pankow, S. Schultz, K. Peters. Back Face Deformation Reconstruction of Soft Body Armor During Ballistic Impact Using Fiber Bragg Gratings. SEM 2018.
  28. A. Rocco, A. Noevere, T. Goode, M. Pankow “Survivability of Silicon Encased Fiber Bragg Gratings Subject to High Rate Impacts. SAMPE 2018 – Long Beach Conference, 2018.
  29. E. Williams, M. Pankow, M. Bryant “Development and Analysis of Non-Conventional Elastomer Infused Composite Artifical Muscles.” SAMPE 2018 – Long Beach Conference, 2018.
  30. Berkowitz, K, Idolor, O, Pankow, M, and Grace, L. “Combined Effects of Impact Damage and Moisture Exposure on Composite Radome Dielectric Properties.” SAMPE 2018 – Long Beach Conference, 2018.
  31. M.Pankow, The Use of High Fidelity Inspection Data to Validate Predictions of Delamination and Residual Strength of Impacted Composite Panels, SciTech Conference, Kissimmee, FL 2018.
  32. S. Joglekar, M. Pankow, V. Ranatunga, A two stage finite element modeling approach to mixed mode delamination in through thickness reinforced composite laminates SciTech Conference, Kissimmee, FL 2018.
  33. J. Firth, M. Pankow, Advanced Dual-Pull Mechanism for Deployable Spacecraft Booms, laminates SciTech Conference, Kissimmee, FL 2018.
  34. A. Howard, M. Pankow, K. Peters, NC State Undergraduate Research for Composites in Extreme Environments, Second Year Study. Proceedings of the 2018 ASEE Southeastern Section Conference, 2018.
  35. M. Pankow, S. Joglekar, J. Schaefer, B. Justusson, Impact and CSAI analysis and validation using high fidelity test and inspection data. Proceedings of the American Society for Composites: 32nd Technical Conference, American Society for Composites, West Lafayette, In, Oct 23-25, 2017.
  36. S. Joglekar, M. Pankow, V. Ranatunga. An Efficient model to Simulate the effects of Z-pin reinforcement. Proceedings of the American Society for Composites: 32nd Technical Conference, American Society for Composites, West Lafayette, In, Oct 23-25, 2017.
  37. T. Goode, K. Peters, M. Pankow, Predicting body armor back face deformation (BFD). Proceedings of the American Society for Composites: 32nd Technical Conference, American Society for Composites, West Lafayette, In, Oct 23-25, 2017.
  38. D. Hackney, G. Guo, T. Goode, K. Peters , M. Pankow, F. Seng, S. Schultz , G. Shoemaker, “Three Dimensional Shape Sensing of Woven Fabrics Using Fiber Bragg Gratings Under Quasi-Static Loading,” Society of Experimental Mechanics, Indianapolis, IN, 2017.
  39. X. Wu, M. Pankow, K. Peters, “Dynamic Polarization Microscopy for In Situ Measurements of Tendon-toBone Insertion,” Society of Experimental Mechanics, Indianapolis, IN, 2017.
  40. G. Guo, D. Hackney, M. Pankow, K. Peters, Spectral Profile Division Multiplexed FBGs Interrogated using a Modified Particle-Swarm Optimization Method, SPIE Smart Materials and Structures/ NDE Symposium, Portland, OR, 2017
  41. F. Seng, D. Hackney, T. Goode, L. Shumway, A. Hammond, G. Shoemaker, M. Pankow, K. Peters, S. Schultz , “Dynamic Body Armor Testing Using Optical Fiber Sensors,” International Test and Evaluation Association Test Instrumentation Workshop, Las Vegas, NV, 2017.
  42. F. Seng, D. Hackney, T. Goode, L. Shumway, A. Hammond, G. Shoemaker, M. Pankow, K. Peters, S. Schultz , “Dynamic Shape Sensing Using Optical Fiber Strain Sensing,” International Test and Evaluation Association Test Instrumentation Workshop, Las Vegas, NV, 2017.
  43. F. Seng, D. Hackney, T. Goode, L. Shumway, A. Hammond, G. Shoemaker, M. Pankow, K. Peters, S. Schultz , “High Repetition-Rate Strain Sensing using Fiber Bragg Grating,” ,” International Test and Evaluation Association Test Instrumentation Workshop, Las Vegas, NV, 2017.
  44. T Goode, E. Gipson, A. Cox, D. Hackney, M. Pankow, Imaging through multiple Media with DIC, iDICs 2016 Conference, Philadelphia, PA.
  45. C. White, M. Pankow, Manufacturing and Mechanical Testing of Dual Matrix High Strain Composites. U.S.-Japan Conference on Composite Materials. 2016.
  46. M. Pankow. Design, Build, Test of Composites for Supersonic Ping Pong Balls. ASC 2016.
  47. M. McElroy, W. Jackson, M. Pankow. A Biaxial-bending test to observe the growth of
    interacting delaminations in a composite laminate plate. ASC, 2016.
  48. S. Joglekar, M. Pankow, V. R anatunga. Simulation of BVID and CAI strength of
    Carbon Fiber Reinforced Composite Laminates. ASC, 2016.
  49. C. White, M. Pankow. Manufacturing and Mechanical Testing of Dual Matrix High
    Strain Composites. US-Japan Conference on Composite Materials, 2016.
  50. T. Goode, E. Gipson, A. Cox, D. Hackney, M. Pankow. Imaging through multiple
    Media with DIC. IDICS, 2016.
  51. N. Lakshman, M. Pankow. 3D Printed Dissolvable Molds for Composite Applications, SAMPE 2016, Long Beach. May 2016.
  52. X. Wu, H.Y. Huang, M. Pankow, K. Peters. Dynamic Polarization Microscopy for
    In-Situ Measurements of Collagen Fiber Realignment during Impact. ASB 2016.
  53. X. Wu, and H.Y. Huang and M. Pankow and K. Peters. Dynamic Polarization
    Microscopy for In-Situ Measurements of Collagen Fiber Realignment during Impact.
    SEM, 2016.
  54. M. Pankow. Integration of dic into undergraduate curriculum to prepare the future
    workforce. IDICS, 2015.
  55. K. Pochiraju, E. Iarve, B. Haque, and M. Pankow. Student simulation challenge: A
    competition-based composites education opportunity. ASC, 2015.
  56. V. Ranatunga, S. Joglekar, M. Pankow, S. Clay. Characterization of Delamination in Translaminar Reinforced Composites due to Low Velocity Impact, American Society of Composites Conference, 2015
  57. S. Joglekar and M. Pankow. Modeling of 3d woven composites with realistic geometry
    for accurate prediction of kinking under compressive loads. ASC, 2015.
  58. K.V. Hagel, S. Joglekar, S. Ferguson, and M. Pankow. Top down deesign using bayesian
    network classifiers for composite panels. ASC, 2015.
  59. M. Pankow. Design and testing of bi-stable deployable booms for space applications.
    ICCM20, 2015.
  60. B. McWilliams, J.H. Yu, and M. Pankow. Dyanmic failure mechanisms in woven ceramic
    fabric reinforced metal matrix composites during ballistic impact. SEM, 2015.
  61. M. Pankow and B. McWilliams. Simulation of high rate failure mechanisms in composites
    during quasi-static testing. SEM, 2015.
  62. S. Joglekar and M. Pankow. Modeling the response and strength of 3d woven composites
    with realistic geometry. TexComp12, 2015.
  63. B.Danley, X. Wu, M. Pankow, K. Peters, and H.S. Huang. Biomechanical and biochemical
    study of muscle-tendon junctions and tendon-to-bone insertions. Society for Biomaterials,
    2015.
  64. S. West, C. White, C. Celestino, S. Philpott, and M. Pankow. Design and testing of
    deployable carbon fiber booms for cubesat non-gossamer applications. SciTech, 2014.
  65. K.V. Hagel, S. Joglekar, M. Pankow, and S. Ferguson. Exploring composite panels
    using multi-objective optimization and varying load conditions. 15th AIAA/ISSMO
    Multidisciplinary Analyssi and Optimization Conference, 2014.
  66. M.Pankow. Projectile impact on kevlar fabric including scaling effects. American Society
    of Composites Conference, 2014.
  67. M.Pankow, A.M. Waas, and C.F. Yen. Comparison of 2d and 3d composites to confined
    crush loading. American Society of Composites Conference, 2013.
  68. M. Pankow, A.M. Waas, C.F. Yen, and S. Ghiorse. Crush response of 2d and 3d hybrid
    woven composites. International Conference on Composite Materials 19, 2013.
  69. M. Pankow, A.M. Waas, and C.F. Yen. Though-the-thickness response of hybrid 2d and
    3d woven composites. AIAA SDM Conference, 2013.
  70. M.Pankow, A.M. Waas, and C.F. Yen. Through-the-thickness response of hybrid 3d
    woven composites. American Society of Composites Conference, 2012.
  71. B. Justusson, M.Pankow, A.M. Waas, and C.F. Yen. Thickness effects on failure
    mechanics of 2d woven composites. American Society of Composites Conference, 2012.
  72. M. Pankow, B. Justusson, A.M. Waas, and C.F. Yen. 3d digital image correlation using
    a single high-speed camera for out-of-plane displacements at high rates. International
    Conference on Experimental Mechanics, 2012.
  73. M. Pankow, B. Justusson, A.M. Waas, and C.F. Yen. 3d hybrid woven composites
    subjected to high rates of loading. ICMNMMCS, 2012.
  74. M. Pankow, B. Justusson, A.M. Waas, and C.F. Yen. High strain rate deformation
    response of 3d woven composites subjected to compression and tension. ECCM 15, 2012.
  75. M. Pankow, B. Justusson, D. Zhang, M. Rudolph, A.M. Waas, and C.F. Yen. Experimental
    investigation on the deformation response of hybrid 3d woven composites. AIAA
    SDM Conference, 2012.
  76. M.Pankow, A.M. Waas, C.F. Yen, and S. Ghiorse. Mechanical properties of hybrid 3d
    woven composites. American Society of Composites Conference, 2011.
  77. B. Justusson, M.Pankow, M. Rudolph, A.M. Waas, C.F. Yen, and S. Ghiorse. Failure
    mechanics of 3d woven composites. Materials Science and Technology, 2011.
  78. M. Pankow, A.M. Waas, C.F. Yen, and S. Ghiorse. High rate compression response of 3d
    woven composites. International Conference on Composite Materials 18, 2011.
  79. M.Pankow, A.M. Waas, C.F. Yen, and S. Ghiorse. Response of 3d woven composites to
    high rates of loading. USNCCM 11, 2011.
  80. M. Pankow, A.M. Waas, C.F. Yen, and S. Ghiorse. Determining delamination resistance
    of 3d woven composites. ASME McMat, 2011.
  81. M. Pankow, A.M. Waas, C.F. Yen, and S. Ghiorse. High rate compression response of 3d
    woven composites. Deformation and Fracture of Composites 11, 2011.
  82. M. Pankow, B. Justusson, A. Salvi, A.M. Waas, C.F. Yen, and S. Ghiorse. Shock loading
    of 3d woven composites. ASME International Congress, 2010.
  83. Zhang, D., Pankow, M., Salvi, A., Waas, A. M., Yen, C. F., and Ghiorse, S., “A Multi-scale model for the strain rate dependence mode-II response of 3D textile glass fiber composites,” ASME International Mechanical Engineering Congress and Exposition, Vancouver, Canada, November 12-18, 2010
  84. M. Pankow, A. Salvi, A.M. Waas, C.F. Yen, and S. Ghiorse. The effectiveness of z-fiber
    reinforcement on crack growth resistance. ASME International Congress, 2010.
  85. M. Pankow, A.M. Waas, C.F. Yen, and S. Ghiorse. High rate compression response of 3d
    woven composites. American Society of Composites Conference, 2010.
  86. M. Pankow, B. Justusson, A. Salvi, A.M. Waas, C.F. Yen, and S. Ghiorse. Blast loading
    of 3d woven composites. IMPLAST Conference, 2010.
  87. M. Pankow, A.M. Waas, C.F. Yen, and S. Ghiorse. A new lamination theory for layered
    textile composites that accounts for manufacturing induced effects. American Society of
    Composites Conference, 2009.