• Title/Summary/Keyword: L-type flange bolt connection

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Study on Behavior Characteristics of L-Type Flange Bolt Connection for Supporting Structures of Wind Turbines (풍력터빈 지지구조물 L형 플랜지 볼트 접합부의 거동 특성에 관한 연구)

  • Jung, Dae-Jin;Hong, Kwan-Young;Choi, Ik-Chang
    • Journal of the Computational Structural Engineering Institute of Korea
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    • v.34 no.5
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    • pp.279-286
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    • 2021
  • In this study, we investigated the behavior characteristics of the L-type flange bolt connection, which is used to connect upper and lower flanges having L-type ring sections, by bolts. This connection is mainly used in domestic wind turbine structures, wherein it is a vital component as any imperfection could cause the collapse of the entire structural system. Therefore, understanding the behavior characteristics of the L-type flange bolt connection is imperative. In this study, the connection's response to external force was simulated using finite element (FE) analysis and the FE model was idealized to behave as a single L-type bolt flange. The variation in the bolt tension and the L-type flange stress were analyzed to understand the behavior characteristics of the connection. Moreover, the bolt-load function models proposed by Petersen, Schmidt/Neuper and VDI 2230, theoretically expressing a relation between bolt tension and external force, were compared to evaluate the suitability of the FE analysis and analyze the significant behavior characteristics of the connection. Furthermore, the changes in the bolt-load curve due to the variations in the partial dimensions of the L-type flange bolt connection were analyzed.

Tensile Experiment and FE Analysis of L-type Flange Bolt Connection in Wind Turbine Support Structures (풍력터빈 지지구조물의 볼트 체결된 L형 플랜지에 대한 인장 실험 및 FE해석)

  • Dae-Jin Jung;Ik-Qhang Choi
    • Journal of Wind Energy
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    • v.15 no.2
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    • pp.37-44
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    • 2024
  • In this study, a tensile test and FE analysis were conducted on a bolt-connected L-shaped flange to evaluate its behavior and load resistance. A total of five specimens were manufactured using the inner and outer distances and bolt diameters of the L-type flange as experimental variables. As a result of the tensile test of the L-shaped flange, as the internal and external length ratio (b/a) increased, the maximum load decreased and the maximum displacement increased. As the diameter (d) of the bolt increased, the maximum load and the deformation of the wall increased. The shapes of the destruction specimens showed two forms of destruction: one due to the fall of the nut and the surrender of the bolt as the thread of the bolt and nut was worn out, followed by the surrender of the wall. As a result of FE analysis, it was found that elasto-plastic model (EPM) analysis similarly tracks the behavior of the tensile test results.