Accurate stress analysis on rigid central buckle of long-span suspension bridges based on submodel method

Wang, Hao; Li, Aiqun; Guo, Tong; Ma, Shuang

doi:10.1007/s11431-009-0070-z

Cited by 21 publications

(6 citation statements)

References 11 publications

(10 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The bolts used in the connection were the M30 bolts class 5.6 (yield stress of 300 MPa, resistant stress of 500 MPa). For the effective analysis of the dynamic response of pipeline to a mining shock, the submodeling technique was used [1,[7][8][9][10][11]. The submodeling technique is used mostly to study local parts of structures.…”

Section: Basic Parameters Of the Pipeline And The Flange Connection Tmentioning

confidence: 99%

Dynamic response of a steel pipeline with bolted connections to a mining shock obtained with the submodeling technique

Boroń

Dulińska

2017

View full text Add to dashboard Cite

In this paper, the dynamic response of an overground steel pipeline to a real mining shock is presented. The submodeling method was used in the calculation. Firstly, time history analysis of a simplified beam model of the pipeline (a global model) was conducted. Secondly, the 3D model of a part of the structure over the support was created (a submodel). The submodeling analysis allowed obtaining stress distribution in the bolted connection of the pipeline segments.Keywords: pipeline, dynamic response, mining shock, submodeling Streszczenie W artykule przedstawiona została analiza odpowiedzi dynamicznej naziemnego gazociągu na rzeczywisty wstrząs górniczy. W obliczeniach zastosowano technikę submodelingu. W pierwszym etapie przeprowadzono obliczenia uproszczonego, belkowego modelu całego gazociągu (model globalny). W drugim etapie zastosowano model 3D fragmentu konstrukcji, obejmujący odcinek gazociągu nad podporą (submodel). Analiza z zastosowaniem techniki submodelingu pozwoliła na dokładne rozeznanie pracy złącza gazociągu oraz na określenie rozkładu naprężeń w kołnierzu i śrubach złącza.

show abstract

Section: Basic Parameters Of the Pipeline And The Flange Connection Tmentioning

confidence: 99%

Dynamic response of a steel pipeline with bolted connections to a mining shock obtained with the submodeling technique

Boroń

Dulińska

2017

View full text Add to dashboard Cite

show abstract

“…Therefore, it is necessary to develop a new modeling scheme to accurately calculate the stress-strain distribution inside the HTS tape during the operation of HTS magnets. At present, the multiscale methods include the local mesh refinement method [29,30], the substructure method [31,32] and the sub-model method [33,34] have attracted much attention and been widely used in modeling the macro-and microscopic mechanical behavior of composite structures [35]. The sub-model method, which separates the areas that need to be focused on from the overall model, establishes refined modeling on the sub-model, and solves the overall model and the sub-model simultaneously [36,37], is one of the promising candidate to simulate the multiscale behaviors of HTS magnets.…”

Section: Introductionmentioning

confidence: 99%

Multiscale modeling on the multi-physical behaviors of high temperature superconducting magnets based on a combined global homogenization and local refinement scheme

Wang,

Jing

2024

Supercond. Sci. Technol.

View full text Add to dashboard Cite

The safe and stable operation is a crucial issue in the development of high-field high temperature superconducting (HTS) magnets. In this paper, we construct a multiscale model which couples the homogenized global (macroscopic) behavior and the refined local (mesoscopic) characteristics to simulate the coupled electromagnetic-mechanical-thermal behaviors of the HTS magnets. In the model, the numerical homogenization method is adopted to simulate the macroscopic behavior of the magnets and identify the “dangerous region” of the magnet which are prone to damage or quench. Then, a refined local sub-model which coupling with the macroscopic homogenization model is established by considering the microstructure and physical parameters of each components of the HTS tapes in the “dangerous region”. Thus, a combined global homogenization and local refinement scheme which balances the computational efficiency and numerical accuracy is developed to simulate the coupled multi-physical behaviors of the HTS magnets including the quench and its propagation. Our results show that the refined local sub-model can simulate the electromagnetic field and the stress-strain at the scale of the tape more accurately. Characteristics, such as the discontinuous stress distribution across the interfaces between different layers and the current shunt from the HTS layer to metallic layers during the quench process of HTS tapes, which are beyond the capability of the homogenization model, have also been well depicted by the refined sub-model.

show abstract

“…The sub-modeling approach is being used for decades in local stress analysis of large complex structures [2], contact zones [3], stress concentration zones [4] and crack tip zones [4,5]. Increasing power of the computational devices have not eliminated the sub-modeling approach from the engineering applications but replaced the initial relatively simple tasks of model reduction with the new challenging problems.…”

Section: Introductionmentioning

confidence: 99%

Application of Finite Element Sub-modeling Techniques in Structural Mechanics

Narvydas

Puodziuniene

THORAPPA

2021

mech

View full text Add to dashboard Cite

show abstract

Accurate stress analysis on rigid central buckle of long-span suspension bridges based on submodel method

Cited by 21 publications

References 11 publications

Dynamic response of a steel pipeline with bolted connections to a mining shock obtained with the submodeling technique

Dynamic response of a steel pipeline with bolted connections to a mining shock obtained with the submodeling technique

Multiscale modeling on the multi-physical behaviors of high temperature superconducting magnets based on a combined global homogenization and local refinement scheme

Application of Finite Element Sub-modeling Techniques in Structural Mechanics

Contact Info

Product

Resources

About