Pressure Simulation and Experimental Study of Basin Insulator Considering Sealing Ring

Zhijun Wang; Yapei Liu; Guangyao Jin; Zhigang Wang; Hao Zhang; Bo Zhang

doi:10.1109/EI2.2018.8582591

Pressure Simulation and Experimental Study of Basin Insulator Considering Sealing Ring

Zhijun Wang, Yapei Liu, Guangyao Jin, Zhigang Wang, Hao Zhang, Bo Zhang

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

1 Scopus citations

Abstract

In order to investigate the influence of the size of the sealing groove on the hydraulic strength of the basin insulator, the water pressure simulation model of the basin insulator considering the sealing ring was established and tested. The uniaxial tests, biaxial tests and shear tests were carried out on the rubber material of the sealing ring, and the parameters of Mooney-Rivilin model, Neo-Hookean model, Yeoh model and Ogden model were fitted to the experimental data, which showed that Ogden model had a good fitting result. The whole simulation process was divided into assembling process simulation and pressure simulation, which solved the initial model interference problem. The influence of groove width on the hydraulic strength of the basin insulator was studied by simulation, the results showed that the hydraulic strength of the basin insulator was about 3.0MPa under the condition of 7.3mm groove width, and the maximum stress occurred at the groove bottom of the sealing groove; when the groove width was 7.5mm, the hydraulic strength of the basin insulator was about 3.7MPa, and the maximum stress occurred at the corner of the convex surface of the basin insulator. The simulation results were verified by experiments, which showed that the hydraulic strength of the basin insulator was 2.9 MPa when the groove width was 7.3 mm, the relative error between simulation and test was 3.4%, and the hydraulic strength of the basin insulator was 3.9MPa when the groove width was 7.5 mm, the relative error between simulation and test was 5.1%, which proved the rationality and effectiveness of the simulation method.

Original language	English
Title of host publication	2nd IEEE Conference on Energy Internet and Energy System Integration, EI2 2018 - Proceedings
Publisher	Institute of Electrical and Electronics Engineers Inc.
ISBN (Electronic)	9781538685495
DOIs	https://doi.org/10.1109/EI2.2018.8582591
State	Published - Dec 19 2018
Externally published	Yes
Event	2nd IEEE Conference on Energy Internet and Energy System Integration, EI2 2018 - Beijing, China Duration: Oct 20 2018 → Oct 22 2018

Publication series

Name	2nd IEEE Conference on Energy Internet and Energy System Integration, EI2 2018 - Proceedings

Conference

Conference	2nd IEEE Conference on Energy Internet and Energy System Integration, EI2 2018
Country/Territory	China
City	Beijing
Period	10/20/18 → 10/22/18

Keywords

Basin Insulator
Pressure Simulation
Pressure Test
Rubber Constitutive Equation
Sealing Ring

Access to Document

10.1109/EI2.2018.8582591

Cite this

Wang, Z., Liu, Y., Jin, G., Wang, Z., Zhang, H., & Zhang, B. (2018). Pressure Simulation and Experimental Study of Basin Insulator Considering Sealing Ring. In 2nd IEEE Conference on Energy Internet and Energy System Integration, EI2 2018 - Proceedings Article 8582591 (2nd IEEE Conference on Energy Internet and Energy System Integration, EI2 2018 - Proceedings). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/EI2.2018.8582591

Wang, Zhijun ; Liu, Yapei ; Jin, Guangyao et al. / Pressure Simulation and Experimental Study of Basin Insulator Considering Sealing Ring. 2nd IEEE Conference on Energy Internet and Energy System Integration, EI2 2018 - Proceedings. Institute of Electrical and Electronics Engineers Inc., 2018. (2nd IEEE Conference on Energy Internet and Energy System Integration, EI2 2018 - Proceedings).

@inproceedings{c0fb95daf47c4e7e9a1b6f72a127569a,

title = "Pressure Simulation and Experimental Study of Basin Insulator Considering Sealing Ring",

abstract = "In order to investigate the influence of the size of the sealing groove on the hydraulic strength of the basin insulator, the water pressure simulation model of the basin insulator considering the sealing ring was established and tested. The uniaxial tests, biaxial tests and shear tests were carried out on the rubber material of the sealing ring, and the parameters of Mooney-Rivilin model, Neo-Hookean model, Yeoh model and Ogden model were fitted to the experimental data, which showed that Ogden model had a good fitting result. The whole simulation process was divided into assembling process simulation and pressure simulation, which solved the initial model interference problem. The influence of groove width on the hydraulic strength of the basin insulator was studied by simulation, the results showed that the hydraulic strength of the basin insulator was about 3.0MPa under the condition of 7.3mm groove width, and the maximum stress occurred at the groove bottom of the sealing groove; when the groove width was 7.5mm, the hydraulic strength of the basin insulator was about 3.7MPa, and the maximum stress occurred at the corner of the convex surface of the basin insulator. The simulation results were verified by experiments, which showed that the hydraulic strength of the basin insulator was 2.9 MPa when the groove width was 7.3 mm, the relative error between simulation and test was 3.4%, and the hydraulic strength of the basin insulator was 3.9MPa when the groove width was 7.5 mm, the relative error between simulation and test was 5.1%, which proved the rationality and effectiveness of the simulation method.",

keywords = "Basin Insulator, Pressure Simulation, Pressure Test, Rubber Constitutive Equation, Sealing Ring",

author = "Zhijun Wang and Yapei Liu and Guangyao Jin and Zhigang Wang and Hao Zhang and Bo Zhang",

note = "Publisher Copyright: {\textcopyright} 2018 IEEE.; 2nd IEEE Conference on Energy Internet and Energy System Integration, EI2 2018 ; Conference date: 20-10-2018 Through 22-10-2018",

year = "2018",

month = dec,

day = "19",

doi = "10.1109/EI2.2018.8582591",

language = "English",

series = "2nd IEEE Conference on Energy Internet and Energy System Integration, EI2 2018 - Proceedings",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

booktitle = "2nd IEEE Conference on Energy Internet and Energy System Integration, EI2 2018 - Proceedings",

}

Wang, Z, Liu, Y, Jin, G, Wang, Z, Zhang, H & Zhang, B 2018, Pressure Simulation and Experimental Study of Basin Insulator Considering Sealing Ring. in 2nd IEEE Conference on Energy Internet and Energy System Integration, EI2 2018 - Proceedings., 8582591, 2nd IEEE Conference on Energy Internet and Energy System Integration, EI2 2018 - Proceedings, Institute of Electrical and Electronics Engineers Inc., 2nd IEEE Conference on Energy Internet and Energy System Integration, EI2 2018, Beijing, China, 10/20/18. https://doi.org/10.1109/EI2.2018.8582591

Pressure Simulation and Experimental Study of Basin Insulator Considering Sealing Ring. / Wang, Zhijun; Liu, Yapei; Jin, Guangyao et al.
2nd IEEE Conference on Energy Internet and Energy System Integration, EI2 2018 - Proceedings. Institute of Electrical and Electronics Engineers Inc., 2018. 8582591 (2nd IEEE Conference on Energy Internet and Energy System Integration, EI2 2018 - Proceedings).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Pressure Simulation and Experimental Study of Basin Insulator Considering Sealing Ring

AU - Wang, Zhijun

AU - Liu, Yapei

AU - Jin, Guangyao

AU - Wang, Zhigang

AU - Zhang, Hao

AU - Zhang, Bo

PY - 2018/12/19

Y1 - 2018/12/19

N2 - In order to investigate the influence of the size of the sealing groove on the hydraulic strength of the basin insulator, the water pressure simulation model of the basin insulator considering the sealing ring was established and tested. The uniaxial tests, biaxial tests and shear tests were carried out on the rubber material of the sealing ring, and the parameters of Mooney-Rivilin model, Neo-Hookean model, Yeoh model and Ogden model were fitted to the experimental data, which showed that Ogden model had a good fitting result. The whole simulation process was divided into assembling process simulation and pressure simulation, which solved the initial model interference problem. The influence of groove width on the hydraulic strength of the basin insulator was studied by simulation, the results showed that the hydraulic strength of the basin insulator was about 3.0MPa under the condition of 7.3mm groove width, and the maximum stress occurred at the groove bottom of the sealing groove; when the groove width was 7.5mm, the hydraulic strength of the basin insulator was about 3.7MPa, and the maximum stress occurred at the corner of the convex surface of the basin insulator. The simulation results were verified by experiments, which showed that the hydraulic strength of the basin insulator was 2.9 MPa when the groove width was 7.3 mm, the relative error between simulation and test was 3.4%, and the hydraulic strength of the basin insulator was 3.9MPa when the groove width was 7.5 mm, the relative error between simulation and test was 5.1%, which proved the rationality and effectiveness of the simulation method.

AB - In order to investigate the influence of the size of the sealing groove on the hydraulic strength of the basin insulator, the water pressure simulation model of the basin insulator considering the sealing ring was established and tested. The uniaxial tests, biaxial tests and shear tests were carried out on the rubber material of the sealing ring, and the parameters of Mooney-Rivilin model, Neo-Hookean model, Yeoh model and Ogden model were fitted to the experimental data, which showed that Ogden model had a good fitting result. The whole simulation process was divided into assembling process simulation and pressure simulation, which solved the initial model interference problem. The influence of groove width on the hydraulic strength of the basin insulator was studied by simulation, the results showed that the hydraulic strength of the basin insulator was about 3.0MPa under the condition of 7.3mm groove width, and the maximum stress occurred at the groove bottom of the sealing groove; when the groove width was 7.5mm, the hydraulic strength of the basin insulator was about 3.7MPa, and the maximum stress occurred at the corner of the convex surface of the basin insulator. The simulation results were verified by experiments, which showed that the hydraulic strength of the basin insulator was 2.9 MPa when the groove width was 7.3 mm, the relative error between simulation and test was 3.4%, and the hydraulic strength of the basin insulator was 3.9MPa when the groove width was 7.5 mm, the relative error between simulation and test was 5.1%, which proved the rationality and effectiveness of the simulation method.

KW - Basin Insulator

KW - Pressure Simulation

KW - Pressure Test

KW - Rubber Constitutive Equation

KW - Sealing Ring

UR - http://www.scopus.com/inward/record.url?scp=85060854725&partnerID=8YFLogxK

U2 - 10.1109/EI2.2018.8582591

DO - 10.1109/EI2.2018.8582591

M3 - Conference contribution

AN - SCOPUS:85060854725

T3 - 2nd IEEE Conference on Energy Internet and Energy System Integration, EI2 2018 - Proceedings

BT - 2nd IEEE Conference on Energy Internet and Energy System Integration, EI2 2018 - Proceedings

PB - Institute of Electrical and Electronics Engineers Inc.

T2 - 2nd IEEE Conference on Energy Internet and Energy System Integration, EI2 2018

Y2 - 20 October 2018 through 22 October 2018

ER -

Wang Z, Liu Y, Jin G, Wang Z, Zhang H, Zhang B. Pressure Simulation and Experimental Study of Basin Insulator Considering Sealing Ring. In 2nd IEEE Conference on Energy Internet and Energy System Integration, EI2 2018 - Proceedings. Institute of Electrical and Electronics Engineers Inc. 2018. 8582591. (2nd IEEE Conference on Energy Internet and Energy System Integration, EI2 2018 - Proceedings). doi: 10.1109/EI2.2018.8582591

Pressure Simulation and Experimental Study of Basin Insulator Considering Sealing Ring

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