Monolithic and partitioned approaches to determine static deformation of membrane structures due to ponding

date_range 2021

person

Author Narayanan N.K.

description

Abstract This paper proposes monolithic and partitioned methods to calculate the static deformation of a membrane structure due to a given volume of ponding water. The partitioned methods involve coupling of a structural solver for membranes and a volume-conserving solver, modeling static incompressible fluid. Two methods of this type are proposed, either using coupling iterations with convergence accelerator between structural solver and volume-conserving solver or adding the linearized fluid behavior in the structural solver in addition to the external coupling iterations. The monolithic methods solve the system of structural equations under hydrostatic load with the volume conservation behavior of the fluid included in the Newton-Raphson (N-R) iterations of the structural solver. One such method was already discussed in the literature and updates the free surface plane to conserve volume exactly after every N-R iteration. In the second, new monolithic method, the volume conservation constraint is added as an additional equation and solved together with the structural equations. It was found that the partitioned method used with a quasi-Newton convergence accelerator was very robust but slower than the monolithic methods. On the other hand, the new monolithic method proposed in this paper was found to be both computationally efficient and robust. © 2020 Elsevier Ltd

article

DOI 10.1016/j.compstruc.2020.106419

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Journal Computers and Structures

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Source Scopus

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Citations Articles

Source from Semantic Scholar

Coupling approaches to simulate dynamic wind effects on a membrane structure with ponding water

Some remarks on load modeling in nonlinear structural analysis–Statics with large deformations–Consistent treatment of follower load effects and load control

Loading–shape interaction analysis of membrane structures subjected to deformation dependent hydrostatic loadings

Hydroelastic linearized vibrations taking into account prestressed effects due to internal liquid weight: Numerical vs. experimental results

Analysis and design of fabric membrane structures: A systematic review on material and structural performance

Tracing non-linearities in the load bearing behavior of structural membranes: Typical shapes and load cases investigated towards European standardization

Simulation of wind induced excitation of a membrane structure with ponding water

Simulating wind effects on ponded membrane structures

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