Abstract

The paper presents a methodology for the selection of a solid finite element models for load-bearing systems of machine tools. The technique is based on the analysis of the results of computer simulation of different models of load-bearing systems of three machines with different layouts. The variability of the models is determined taking into account the traction devices and joints in the conjunctions. The traditional approach for modeling the non-ideal joint in the form of elastic elements set is used, despite the fact that modern CAE systems for modeling non-ideal contact in mates offer special contact finite elements. The conducted computational experiments demonstrate that the most accurate model is obtained by using models of traction devices and joints. In this case, the computational model requires significant computational resources. It is found that the exception of the design model of the bearing system of the machine traction devices can lead to an increased modeling error in static problems up to 25 %. The results of modal and dynamic calculations are more resistant to changes in the design model of the machine, as the error of the design parameters does not exceed 10 %. In addition, the computational models of tightened joint, with a stiffness of more than N/m, are not much different from models with ideal contact. It is shown that with an acceptable 25% modeling error, it is preferable to use a computational model of the load-bearing system without taking into account the non-ideal contact and traction devices

Highlights

  • При расчете и конструировании предварительно напряженных железобетонных сборно-монолитных элементов податливость шва сдвига обычно не учитывается, что осложняет анализ действительного напряженно-деформированного состояния конструкции и содержит определенный нераскрытый потенциал ее рационального проектирования

  • The cross section of such elements is considered as a two-layered, and the resulting composite element is internally loaded under conditions of stresses-strains distribution through the layers by the joints, the actual arrangement of which depends on the physicomechanical characteristics, the design scheme and the parameters of the layers’ contact interaction

  • Calculating and designing of prestressed precast-cast-in-place concrete structures basically uses no joints deformability estimation. It complicates the analysis of the actual stressstrain state of the structure and contains a certain undiscovered potential of its rational design

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Summary

Introduction

При расчете и конструировании предварительно напряженных железобетонных сборно-монолитных элементов податливость шва сдвига обычно не учитывается, что осложняет анализ действительного напряженно-деформированного состояния конструкции и содержит определенный нераскрытый потенциал ее рационального проектирования. Одним из возможных направлений в решении задачи, учитывающей сдвиг контактного шва, является использование вариационных принципов строительной механики при расчете таких конструкций, как стержней составного сечения. В рамках данной работы рассматриваются вопросы практической применимости при структурном анализе составного железобетонного сборно-монолитного стержня вариационных принципов строительной механики на основе метода В.З.

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Conclusion

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