[Aleksandrov, Y., Bonch-Bruyevich, A. (1967) Исследование поверхностных деформаций тел с помощью голограммной техники (Investigation of the surface deformations of bodies with the help of a hologram technique). Journal of Technical Physics, Vol. 37, pp. 360-369 [in Russian].]Search in Google Scholar
[Benfratello S., Camera , A. (2009) Experimental analysis of flexural behaviour of glued lamellar wood by speckle interferometry. Available at: http://www.dipmat.univpm.it/aimeta2009/Atti%20Congresso/MECCANICA_STRUTTURE/BenBenfrate_paper266.pdf, (accessed at 31/10/2017).]Search in Google Scholar
[EN 26891:1991. Timber structures - joints made with mechanical fasteners - general principles for the determination of strength and deformation characteristics. European Committee for Standardization, Brussels, Belgium.]Search in Google Scholar
[Branco, J., Cruz, P. (2004) Nailed connections between Pinus Pinaster Ait. Members. Available at: http://support.sbcindustry.com/Archive/2004/jun/Paper_224.pdf, (accessed at 31/10/2017).]Search in Google Scholar
[Tonon, J. E., Moreno J. R. S., Francisco, J. C. S., Fogal, M. L. F. (2015) Evaluation of Shear Resistance of Bolted Connections in Wood/Wood and Wood/Steel Plate/Wood. American Journal of Materials Science, Vol. 5 No. 2, pp. 47-52.10.5923/j.materials.20150502.04]Search in Google Scholar
[Kapustin, A. et al. (1977) Количественная оценка голографических интерферограмм (Quantification of holographic interferograms). Collection of scientific papers of the 9th All-Union School on Holography (holographic applications), pp. 267-286 [in Russian].]Search in Google Scholar
[Kesariiskyi, A., Kondrashchenko, V., Semak, A. (2010) Исследование особенностей деформирования бетона со щебневидным заполнителем методами голографической интерферометрии (Investigation of the features of the deformation of concrete with gravel aggregate using holographic interferometry). Bulletin of the Odessa State Academy of Civil Engineering and Architecture, Vol. 39, pp. 324-336 [in Russian].]Search in Google Scholar
[Klimenko, V. (2012) З’єднання на вклеєних сталевих нагелях у конструкціях із клеєної деревини (Connection of glued steel nails in a laminated wood construction). Collection of scientific works of the Ukrainian Institute of Steel Structures named after V.M. Shimanovsky, Vol. 9, pp. 218-226 [in Ukrainian].]Search in Google Scholar
[Mascia, N.T., Santana, C. L.O, Cramer, S.M. (2008) Evaluation of the equivalent slip modulus of nailed connections for application in linear analysis of plywood timber beams. Materials Research, São Carlos , No. 11, No. 2, pp. 151-157.10.1590/S1516-14392008000200007]Search in Google Scholar
[Ostrovskyi, Y., Schepinov, V., Yakovlev, V. (1988) Голографические интерференционные методы измерения деформаций (Holographic interference methods of measuring deformations). Moscow, Science, 248 pp. [in Russian].]Search in Google Scholar
[Savytskyi, M., Koval, O., Pereginec, I., Shekhorkina, S. (2010) Результаты испытаний соединений деревянных конструкційна металлических зубчатых пластинах (The results of tests of timber structure joints on metal toothed plates). Construction, materials science, mechanical engineering, Vol. 56, pp. 414-423 [in Russian].]Search in Google Scholar
[ASTM D1761-12 (2012) Standard Test Methods for Mechanical Fasteners in Wood. ASTM Standard Test Methods, American Society for Testing Material Standards. West Conshohocken.]Search in Google Scholar
[Stolpovskyi, G. (2011) Соединения деревянных элементов на витых крестообразных стержнях, работающих на выдергивание (Withdrawal resistance of twisted cross-shaped rods in connections of timber elements). PhD Thesis, Orenburg, Russia [in Russian].]Search in Google Scholar
[ГОСТ 33082-2014. Конструкции деревянные. Методы определения несущей способности узловых соединений (Timber structures. Methods of determining the bearing capacity of joints). Interstate council for standardization, metrology and certification, Moscow. [in Russian]]Search in Google Scholar
[ДСТУ EN 338:2004. Лісоматеріали конструкційні. Класи міцності (Structural timber. Strength classes) [in Ukrainian].]Search in Google Scholar
[ДСТУ ГОСТ 4028:2008. Гвозди строительные. Конструкция и размеры (Building nails. Construction and dimensions) [in Russian].]Search in Google Scholar
[Konnerth, J., Valla, A., Gindl, W. et al. (2006) Measurement of strain distribution in timber finger joints. Wood Science and Technology, Vol. 40: No. 8, pp. 631-636.10.1007/s00226-006-0090-9]Search in Google Scholar
[Gascón F., Salazar F. (1996) A procedure for calculating through laser speckle interferometry the elastic constants of isotropic materials. Optics Communications, Vol. 123, Nos. 4-6, pp. 734-742.10.1016/0030-4018(95)00505-6]Search in Google Scholar
[Pagnotta, L. (2008) Recent progress in identification methods for the elastic characterization of materials. International Journal of Mechanics, Vol. 2(4), pp. 129-140.]Search in Google Scholar
[Denisyuk, Y. N. (1962) Об отображении оптических свойств объекта в волновом поле рассеянного им излучения (On the reflection of optical properties of an object in a wave field of light scattered by it). Reports of the USSR Academy of Sciences. Vol. 144 (6), pp. 1275-1278 [in Russian].]Search in Google Scholar
[Jones, R., Wykes, C. (1983) Holographic and Speckle Interferometry. A Discussion of the Theory, Practice and Application of the Techniques. Cambridge et al., Cambridge University Press. 342 p.]Search in Google Scholar