The analysis of the thermodimensional stability of the composite honeycomb panel for the conditions of thermal loading of space apparatus

Autor:	V. Maslyey, M. Kryshchuk, A. Mashtabe
Rok vydání:	2019
Předmět:	Materials science Thermal Composite number Thermomechanical analysis Honeycomb (geometry) von Mises yield criterion Composite material Intensity (heat transfer) Finite element method Quasistatic process
Zdroj:	Mechanics and Advanced Technologies. 85:57-62
ISSN:	2522-4255 2521-1943
DOI:	10.20535/2521-1943.2019.85.156494
Popis:	The results of the numerical determination of the stress-strain state of the composite honeycomb panel under thermal loads of varying intensity in a near-earth orbit are presented. As a simulation model of the structure under study, a typical structure of a composite cell panel with a known type of cell arrangement of honeycomb aluminum filler and reinforcement schemes for layers of carbon fiber material for upper and lower plates with known thermomechanical properties was chosen. To solve the problems of thermoelasticity, we used the finite element method in mathematical formulations for quasistatic thermomechanical analysis. The distribution of the values of von Mises equivalent stresses in the structural elements of the honeycomb panel under thermal loads in the temperature range from -80 to +80 is determined. The longitudinal and transverse deflections of the honeycomb from the action of thermal loads of various intensities in the near-earth orbit are found. The limiting value of the temperature difference between the outer surfaces of the plates, which ensures the thermal stability of the composite honeycomb panel, has been established.
Databáze:	OpenAIRE
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