Finite element analysis of axial stiffness of S-shaped welded metal bellows

Lei Liu; Mutellip Ahmat; Wei Qiu

doi:10.1117/12.3026794

1 April 2024 Finite element analysis of axial stiffness of S-shaped welded metal bellows

Lei Liu, Mutellip Ahmat, Wei Qiu

Proceedings Volume 13082, Fourth International Conference on Mechanical Engineering, Intelligent Manufacturing, and Automation Technology (MEMAT 2023); 130823E (2024) https://doi.org/10.1117/12.3026794
Event: 2023 4th International Conference on Mechanical Engineering, Intelligent Manufacturing and Automation Technology (MEMAT 2023), 2023, Guilin, China

Abstract

Currently in bellows applications, the vast majority of force situations are axial loads, so axial stiffness directly affects the service life of the bellows. To solve the problem of welded metal bellows stiffness is difficult to measure, to mechanical seals with S-type welded metal bellows as the object of study, the establishment of S-type bellows asymmetric cross-section finite element model, the use of ANSYS on the different number of waves of single and double-layer bellows in the elasticity of the range of axial stiffness simulation calculations, and with theoretical formulas to calculate the results of comparisons. The results show that the simulation results are very close to the theoretically calculated values, i.e., the finite element method simulation method can be used to simulate the calculation of stiffness values, which provides a reference for the structural analysis and stability study of the bellows.

(2024) Published by SPIE. Downloading of the abstract is permitted for personal use only.

Citation Download Citation

Lei Liu, Mutellip Ahmat, and Wei Qiu "Finite element analysis of axial stiffness of S-shaped welded metal bellows", Proc. SPIE 13082, Fourth International Conference on Mechanical Engineering, Intelligent Manufacturing, and Automation Technology (MEMAT 2023), 130823E (1 April 2024); https://doi.org/10.1117/12.3026794

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KEYWORDS

Metals

Finite element methods

Computer simulations

Deformation

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