论文信息 - Joint slip investigation based on finite element modelling verified by experimental results on wind turbine lattice towers

Joint slip investigation based on finite element modelling verified by experimental results on wind turbine lattice towers

Slippage corresponds to the relative displacement of a bolted joint subjected to shear loads since the construction clearance between the bolt shank and the bolthole at assembly can cause joint slip. Deflections of towers with joint slippage effects is up to 1.9 times greater than the displacements obtained by linear analytical methods. In this study, 8 different types of joints are modelled and studied in the finite element program, and the results are verified by the experimental results which have been done in the laboratory. Moreover, several types of joints have been modelled and studied and load-deformation curves have also been presented. Finally, joint slip data for different types of angles, bolt diameter and bolt arrangements are generated. Thereupon, damping ratios (ζ) for different types of connections are reported. The study can be useful to help in designing of wind turbine towers with a higher level of accuracy and safety.

Saleh Yaghoobi | Ahmad Shooshtari

[1] S. R. de. S. Chandrakeerthy,et al. Joint slip in steel electric transmission towers , 2003 .

[2] Ghyslaine McClure,et al. Accurate modeling of joint effects in lattice transmission towers , 2011 .

[3] A. James Samuelson,et al. Tower Designs for AEP 765-KV Project , 1969 .

[4] Yang Zhan,et al. Modeling the Effect of Joint Slip in Lattice Steel Structures , 2016 .

[5] Lennart Söder,et al. Wind energy technology and current status : a review , 2000 .

[6] Faris Albermani,et al. Nonlinear analysis of transmission towers , 1992 .

[7] Sung-Han Sim,et al. Development of temperature-robust damage factor based on sensor fusion for a wind turbine structure , 2015 .

[8] Wylliam Husson,et al. Friction connections with slotted holes for wind towers , 2008 .

[9] Geoffrey L. Kulak,et al. Guide to Design Criteria for Bolted and Riveted Joints , 1987 .

[10] A. R. Santhakumar,et al. Joint Effects on Behavior of Transmission Towers , 1993 .

[11] Wei Wang,et al. Cyclic behavior of stiffened joints between concrete-filled steel tubular column and steel beam with narrow outer diaphragm and partial joint penetration welds , 2016 .

[12] Spyros G. Voutsinas,et al. STATE OF THE ART IN WIND TURBINE AERODYNAMICS AND AEROELASTICITY , 2006 .

[13] Mohamed S. Gadala,et al. Influence of Bolted-Joint Slippage on the Response of Transmission Towers Subjected to Frost-Heave , 2009 .