Processing the rig test data of an air filling twin-tube shock absorber

Ming Ming Dong; Ming Ming Dong; Zhen Xing Luo; Yong Fei Zhao

doi:10.15918/j.jbit1004-0579.201524.0210

Processing the rig test data of an air filling twin-tube shock absorber

Ming Ming Dong^*, Ming Ming Dong^*, Zhen Xing Luo, Yong Fei Zhao

^*Corresponding author for this work

School of Mechanical Engineering

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

Abstract

A separation method is proposed to design and improve shock absorber according to the characteristics of each force. The method is validated by rig test. The force data measured during rig test is the resultant force of damping force, rebound force produced by pressed air, and friction force. Different characters of damping force, air rebound force and friction force can be applied to seperate each force from others. A massive produced air filling shock absorber is adopted for the validation. The statistic test is used to get the displacement-force curves. The data are used as the input of separation calculation. Then the tests are carried out again to obtain the force data without air rebound force. The force without air rebound is compared to the data derived from the former tests with the separation method. The result shows that this method can separate the damping force and the air elastic force.

Original language	English
Pages (from-to)	201-206
Number of pages	6
Journal	Journal of Beijing Institute of Technology (English Edition)
Volume	24
Issue number	2
DOIs	https://doi.org/10.15918/j.jbit1004-0579.201524.0210
Publication status	Published - 1 Jun 2015

Keywords

Air filling shock absorber
Force-stroke curve
Forces separation
Rig test data

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10.15918/j.jbit1004-0579.201524.0210

Cite this

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title = "Processing the rig test data of an air filling twin-tube shock absorber",

abstract = "A separation method is proposed to design and improve shock absorber according to the characteristics of each force. The method is validated by rig test. The force data measured during rig test is the resultant force of damping force, rebound force produced by pressed air, and friction force. Different characters of damping force, air rebound force and friction force can be applied to seperate each force from others. A massive produced air filling shock absorber is adopted for the validation. The statistic test is used to get the displacement-force curves. The data are used as the input of separation calculation. Then the tests are carried out again to obtain the force data without air rebound force. The force without air rebound is compared to the data derived from the former tests with the separation method. The result shows that this method can separate the damping force and the air elastic force.",

keywords = "Air filling shock absorber, Force-stroke curve, Forces separation, Rig test data",

author = "Dong, {Ming Ming} and Dong, {Ming Ming} and Luo, {Zhen Xing} and Zhao, {Yong Fei}",

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doi = "10.15918/j.jbit1004-0579.201524.0210",

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TY - JOUR

T1 - Processing the rig test data of an air filling twin-tube shock absorber

AU - Dong, Ming Ming

AU - Luo, Zhen Xing

AU - Zhao, Yong Fei

PY - 2015/6/1

Y1 - 2015/6/1

N2 - A separation method is proposed to design and improve shock absorber according to the characteristics of each force. The method is validated by rig test. The force data measured during rig test is the resultant force of damping force, rebound force produced by pressed air, and friction force. Different characters of damping force, air rebound force and friction force can be applied to seperate each force from others. A massive produced air filling shock absorber is adopted for the validation. The statistic test is used to get the displacement-force curves. The data are used as the input of separation calculation. Then the tests are carried out again to obtain the force data without air rebound force. The force without air rebound is compared to the data derived from the former tests with the separation method. The result shows that this method can separate the damping force and the air elastic force.

AB - A separation method is proposed to design and improve shock absorber according to the characteristics of each force. The method is validated by rig test. The force data measured during rig test is the resultant force of damping force, rebound force produced by pressed air, and friction force. Different characters of damping force, air rebound force and friction force can be applied to seperate each force from others. A massive produced air filling shock absorber is adopted for the validation. The statistic test is used to get the displacement-force curves. The data are used as the input of separation calculation. Then the tests are carried out again to obtain the force data without air rebound force. The force without air rebound is compared to the data derived from the former tests with the separation method. The result shows that this method can separate the damping force and the air elastic force.

KW - Air filling shock absorber

KW - Force-stroke curve

KW - Forces separation

KW - Rig test data

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Processing the rig test data of an air filling twin-tube shock absorber

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