Parameter Identification Based on Force-Displacement Curves for a Bolted Joint Finite Element Model

Delin Sun; Ridong Liao; Dexing Qian; Zhengkun Cheng

doi:10.15918/j.jbit1004-0579.201726.0108

Parameter Identification Based on Force-Displacement Curves for a Bolted Joint Finite Element Model

Delin Sun, Ridong Liao^*, Dexing Qian, Zhengkun Cheng

^*Corresponding author for this work

School of Mechanical Engineering

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

Abstract

In order to identify the uncertain parameters of a bolted joint finite element model, a simple and applicable way of parameter identification is introduced. By utilizing numerical simulation with the Abaqus software and experimental investigation with the MTS material testing system, the tangential force-displacement curves that reflect the characteristics of the bolted joint were acquired. On the basis of this, by employing the response surface methodology (RSM) and genetic algorithms (GAs), parameters in the FEM model were identified. The force-displacement curves by both virtual and experimental approaches are well correlated at the end. This phenomenon-based parameter identification method may help facilitate precise prediction of complex jointed connection structures.

Original language	English
Pages (from-to)	50-57
Number of pages	8
Journal	Journal of Beijing Institute of Technology (English Edition)
Volume	26
Issue number	1
DOIs	https://doi.org/10.15918/j.jbit1004-0579.201726.0108
Publication status	Published - 1 Mar 2017

Keywords

Contact parameters
Finite element method
Force-displacement curve
Response surface methodology

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10.15918/j.jbit1004-0579.201726.0108

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title = "Parameter Identification Based on Force-Displacement Curves for a Bolted Joint Finite Element Model",

abstract = "In order to identify the uncertain parameters of a bolted joint finite element model, a simple and applicable way of parameter identification is introduced. By utilizing numerical simulation with the Abaqus software and experimental investigation with the MTS material testing system, the tangential force-displacement curves that reflect the characteristics of the bolted joint were acquired. On the basis of this, by employing the response surface methodology (RSM) and genetic algorithms (GAs), parameters in the FEM model were identified. The force-displacement curves by both virtual and experimental approaches are well correlated at the end. This phenomenon-based parameter identification method may help facilitate precise prediction of complex jointed connection structures.",

keywords = "Contact parameters, Finite element method, Force-displacement curve, Response surface methodology",

author = "Delin Sun and Ridong Liao and Dexing Qian and Zhengkun Cheng",

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AU - Sun, Delin

AU - Liao, Ridong

AU - Qian, Dexing

AU - Cheng, Zhengkun

PY - 2017/3/1

Y1 - 2017/3/1

N2 - In order to identify the uncertain parameters of a bolted joint finite element model, a simple and applicable way of parameter identification is introduced. By utilizing numerical simulation with the Abaqus software and experimental investigation with the MTS material testing system, the tangential force-displacement curves that reflect the characteristics of the bolted joint were acquired. On the basis of this, by employing the response surface methodology (RSM) and genetic algorithms (GAs), parameters in the FEM model were identified. The force-displacement curves by both virtual and experimental approaches are well correlated at the end. This phenomenon-based parameter identification method may help facilitate precise prediction of complex jointed connection structures.

AB - In order to identify the uncertain parameters of a bolted joint finite element model, a simple and applicable way of parameter identification is introduced. By utilizing numerical simulation with the Abaqus software and experimental investigation with the MTS material testing system, the tangential force-displacement curves that reflect the characteristics of the bolted joint were acquired. On the basis of this, by employing the response surface methodology (RSM) and genetic algorithms (GAs), parameters in the FEM model were identified. The force-displacement curves by both virtual and experimental approaches are well correlated at the end. This phenomenon-based parameter identification method may help facilitate precise prediction of complex jointed connection structures.

KW - Contact parameters

KW - Finite element method

KW - Force-displacement curve

KW - Response surface methodology

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Parameter Identification Based on Force-Displacement Curves for a Bolted Joint Finite Element Model

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Keywords

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