Christopher M. Kube

GS  RG

  1. N. J. Kizer, C. J. Dickman, A. R. Nassar, E. W. Reutzel, and C. M. Kube, “In-process volumetric sensing of defects in multiple parts during powder bed fusion using ultrasound,” JASA Express Lett., 3, 094001 (2023). View
  2. O. J. Cook, N. Huang, R. L. W. Smithson, C. M. Kube, A. M. Beese, and A. P. Arguelles, “Uncovering microstructural heterogeneities in binder jet printed SS316L through ultrasonic testing and X-ray computed tomography,” Mat. Char., 197, 112697 (2023). View
  3. N. Huang, O. J. Cook, J. D. Warner, R. L. W. Smithson, C. M. Kube, A. P. Arguelles, and A. M. Beese, “Effects of infiltration conditions on binder jet additively manufactured stainless steel infiltrated with bronze,” Addit. Manuf., 59, 103162 (2022). View
  4. C. M. Kube and A. N. Norris, “Stress formulation of acoustoelasticity,” Wave Motion, 114, 103002 (2022). View
  5. C. M. Kube, Z. Feng, R. A. Lebensohn, and M. Cherry, “Resonant ultrasound spectroscopy for crystalline samples containing initial strain,” J. Appl. Phys., 131, 225107 (2022). View
  6. O. J. Cook, N. Huang, R. L. W. Smithson, C. M. Kube, A. M. Beese, and A. P. Arguelles, “Ultrasonic characterization of porosity in components made by binder jet additive manufacturing,” Mat. Eval., 80, 37-44 (2022). View
  7. C. M. Kube, “On the incompressible behavior in weakly nonlinear elasticity,” J. Elast., (2022). View
  8. C. M. Kube, A. Roy, D. S. Jensen, and D. W. Branch, “A unifying model of weakly nonlinear elastic waves; large on large theory,” J. Acoust. Soc. Am., 151, 1294-1310 (2022). View
  9. N. Huang, O. J. Cook, R. L. W. Smithson, C. M. Kube, A. P. Arguelles, and A. M. Beese, “Use of ultrasound to identify microstructure-property relationships in 316 stainless steel fabricated with binder jet additive manufacturing,” Addit. Manuf., 51, 102591 (2022). View
  10. A. Roy, D. W. Branch, D. S. Jensen, and C. M. Kube, “propSym: a tool to establish relationships between property constants for material property tensors of any order,” J. Appl. Cryst., 54, 1894–1901 (2021). View
  11. C. M. Kube, J. Gillespie, and M. Cherry, “Influence of residual stress and texture on the resonances of polycrystalline metals,” J. Acoust. Soc. Am., 150, 2624–2634 (2021). View
  12. J. Gillespie, W. Yi Yeoh, C. Zhao, N. D. Parab, T. Sun, A. D. Rollett, B. Lan, and C. M. Kube, “In situ characterization of laser-generated melt pools using synchronized ultrasound and high-speed X-ray imaging,” J. Acoust. Soc. Am., 150, 2409–2420 (2021). View
  13. C. M. Kube and A. N. Norris, “Stress formulation of elastic wave motion,” JASA Express Letters, 1, 064001 (2021). View
  14. S. Zhang, L. Qin, X. Li, and C. M. Kube, “Propagation of Rayleigh waves on curved surfaces,” Wave Motion, 94, 102517 (2020). View
  15. Y. Song, C. M. Kube, J. Zhang, and X. Li, “Higher-order spatial correlation coefficients of ultrasonic backscattering signals using partial cross-correlation analysis,” J. Acoust. Soc. Am., 147, 757–768 (2020). View
  16. T. C. Henry, D. P. Cole, C. M. Kube, S. J. Fudger, R. A. Haynes, J.-E. Mogonye, and V. Weiss, “Evaluation of Early Fatigue Signatures in Lightweight Aluminum Alloy 7075,” Exp. Mech., 60, 205–216 (2020). View
  17. C. M. Kube and A. P. Arguelles, “Pressure influence on elastic wave attenuation in polycrystalline materials,” J. Acoust. Soc. Am., 146, 4183–4189 (2019). View
  18. H. He and C. M. Kube, “On the weakness of a multiple scattering theory for weak ultrasound scattering,” Proc. Mtgs. Acoust., 38, 045021 (2019). View
  19. A. C. Vermeulen, C. M. Kube, and N. Norberg, “Implementation of the self-consistent Kröner–Eshelby model for the calculation of X-ray elastic constants for any crystal symmetry,” Powder Diffr., 34, 103–109 (2019). View
  20. E. M. Habtour, D. P. Cole, C. M. Kube, T. C. Henry, R. A. Haynes, F. Gardea, T. Sano, and T. Tinga, “Structural state awareness through integration of global dynamic and local material behavior,” J. Intel. Mat. Syst. Str., 30, 1355–1365 (2019). View
  21. Y. Song, C. M. Kube, Z. Peng, J. A. Turner, and X. Li, “Flaw detection with ultrasonic backscatter signal envelopes,”J. Acoust. Soc. Am., 145, EL142–EL148 (2019). View
  22. W. H. Green, J. M. Sietins, and C. M. Kube, “Nondestructive testing and evaluation of materials in the Army Research Laboratory at Aberdeen Proving Ground,” Materials Evaluation, 76, 959–965 (2018). View
  23. C. M. Kube, Y. Shu, A. J. Lew, and D. Galles, “Real-time characterization of laser generated meltpools using ultrasound,” Materials Evaluation, 76, 525–534 (2018). View
  24. Y. Chen, C.-S. Man, K. Tanuma, and C. M. Kube, “Monitoring near-surface depth profile of residual stress in weakly anisotropic media by Rayleigh-wave dispersion,” Wave Motion, 77, 119–138 (2017). View
  25. C. M. Kube, “Scattering of harmonic waves from a nonlinear elastic inclusion,” J. Acoust. Soc. Am. 141, 4756–4767 (2017). View
  26. C. M. Kube and A. P. Arguelles, “Ultrasonic harmonic generation from materials with up to cubic nonlinearity,” J. Acoust. Soc. Am. 142, EL224–EL230 (2017). View
  27. C. M. Kube, A. P. Arguelles, and J. A. Turner, “Ultrasonic backscatter from elongated grains using line focused ultrasound,” Ultrasonics, 82, 79–83 (2017). View
  28. C. M. Kube, “Iterative solution to bulk wave propagation in polycrystalline materials,” J. Acoust. Soc. Am. 141, 1804–1811 (2017).
    View
  29. C. M. Kube and A. N. Norris, “Bounds on the longitudinal and shear wave attenuation ratio of polycrystalline materials (L),” J. Acoust. Soc. Am. 141, 2633–2636 (2017).
    View
  30. Y. Song, C. M. Kube, X. Li, and J. A. Turner, “Statistics on the scattering of ultrasound from microstructure,” Ultrasonics, 80, 58–61 (2017).
    View
  31. C. M. Kube, “Elastic anisotropy of crystals,” AIP Advances, 6, 095209 (2016). View
  32. C. M. Kube, “Attenuation of laser generated ultrasound in steel at high temperatures; comparison of theory and experimental measurements,” Ultrasonics, 70, 238-240 (2016). View
  33. C. M. Kube and A. P. Arguelles, “Bounds and self-consistent estimates of the elastic constants of polycrystals,” Computers \& Geosciences, 95, 188-122 (2016). View
  34. C. M. Kube and M. de Jong, “Elastic constants of polycrystals with generally anisotropic crystals,” J. Appl. Phys. 120, 165105 (2016). View
  35. A. P. Arguelles, C. M. Kube, and J. A. Turner, “Mode-converted ultrasonic scattering in polycrystals with elongated grains,” J. Acoust. Soc. Am. 140, 1570-1580 (2016). View
  36. S. Zhang, C. M. Kube, Y. Song, and X. Li, “A self-reciprocity calibration method for broadband focused transducers,” J. Acoust. Soc. Am. 140, EL236-EL241 (2016). View
  37. C. M. Kube and J. A. Turner, “Estimates of nonlinear elastic constants and acoustic nonlinearity parameters for textured polycrystals,” J. of Elasticity, 122, 157-177 (2016). View
  38. C. M. Kube and J. A. Turner, “Stress-dependent ultrasonic scattering in polycrystalline materials,” J. Acoust. Soc. Am. 139, 811-824 (2016). View
  39. C. M. Kube and J. A. Turner, “Stress-dependent second-order grain statistics of polycrystals,” J. Acoust. Soc. Am. 138, 2613-2625 (2015). View
  40. C. M. Kube, A. Arguelles, and J. A. Turner, “On the acoustoelasticity of polycrystalline materials,” J. Acoust. Soc. Am. 138, 1498-1507 (2015). View
  41. C. M. Kube and J. A. Turner, “Acoustic nonlinearity parameters for transversely isotropic materials,” J. Acoust. Soc. Am. 137, 3272-3280 (2015). View
  42. C. M. Kube and J. A. Turner, “Acoustic attenuation coefficients for polycrystalline materials containing crystallites of any symmetry class,” J. Acoust. Soc. Am. 137, 476-482 (2015). View
  43. C. M. Kube and J. A. Turner, “Ultrasonic attenuation in polycrystals using a self-consistent approach,” Wave Motion, 57, 182-193 (2015). View
  44. A. Wydra, A. M. Chertov, R. Gr. Maev, C. M. Kube, H. Du, and J. A. Turner, “Grain size measurements of copper welding caps via ultrasonic attenuation and scattering experiments,” Research in NDE, 26, 225-246 (2015). View
  45. P. Hu, C. M. Kube, L. W. Koester, and J. A. Turner, “Mode-converted diffuse ultrasonic backscatter,” J. Acoust. Soc. Am. 134, 982-990 (2013). View
  46. C. M. Kube, H. Du, G. Ghoshal, and J. A. Turner, “Stress-dependent changes in the diffuse ultrasonic backscatter coefficients in steel: Experimental results,” J. Acoust. Soc. Am. 132, EL43-EL48 (2012). View
  47. J. A. Turner, C. M. Kube, G. Ghoshal, and M. Fateh, “Ultrasonic scattering in polycrystalline materials under applied loads,” in Advances in Heterogeneous Material Mechanics, edited by J. Fan, J. Zhang, L. Chen and Z. Jin, (DEStech Publications, Inc., Lancaster, PA, 2011), Vol. 3, pp. 713-718. View