ГОСТ Р ИСО 18437-5-2014. Национальный стандарт Российской Федерации. Вибрация и удар. Определение динамических механических свойств вязкоупругих материалов. Часть 5. Определение коэффициента Пуассона с применением метода конечных элементов

БИБЛИОГРАФИЯ

 

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[2] FREAKLEY, P., PAYNE, A. Theory and practice of engineering with rubber. London: Applied Science, 1978, 666 p.

[3] PIERSOL, A.G., PAEZ, T.L. Harris' shock and vibration handbook, 6th edition. New York, NY: McGraw Hill Professional, 2010

[4] , V., HOFMANN, M. Latest design for engine mountings [in German], : VDI, 1983. (VDI-Berichte 499.)

[5] LANGLOIS, C., PANNETON, R., ATALLA, N., Polynomial relations for quasi-static mechanical characterization of isotropic poro-elastic materials. J. Acoust. Soc. Am. 2001, 110, pp. 3032 - 3040

[6] NASHIF, A.D., JONES, D.I.G., HENDERSON, J.P. Vibration damping. New York, NY: Wiley, 1985. 453 p.

[7] PRITZ, T. Measurement methods of complex Poisson ratio of visco-elastic materials. Appl. Acoust. 2000, 60, pp. 279 - 292

[8] SIM, S., KIM, K.J. A method to determine the complex modulus and Poisson ratio of visco-elastic materials for FEM applications. J. Sound Vib. 1990, 141, pp. 71 - 82

[9] SNOWDON, J.C. Vibration and shock in damped mechanical systems. New York, NY: Wiley, 1968, 468 p.

[10] ISO 10846-2:2008, Acoustics and vibration - Laboratory measurement of vibro-acoustic transfer properties of resilient elements - Part 2: Direct method for determination of the dynamic stiffness of resilient supports for translatory motion

[11] ISO 17561:2002, Fine ceramics (advanced ceramics, advanced technical ceramics) - Test method for elastic moduli of monolithic ceramics at room temperature by sonic resonance