Study on the simulation of structural dynamic characteristics of vehicle's powertrain system

Cheng Ying; Tu Hongmao; Long Kai

doi:10.4271/2007-01-0896

Study on the simulation of structural dynamic characteristics of vehicle's powertrain system

Cheng Ying^*, Tu Hongmao, Long Kai

^*Corresponding author for this work

School of Mechanical Engineering

Beijing Institute of Technology

Research output: Contribution to journal › Conference article › peer-review

Abstract

A vehicle's powertrain is considered, FEA and MSS methods are used to predict the system's structural characteristics in its early stage of design. First, the multibody system dynamics model of crank mechanism is established, the time response of crank mechanism's output torque can be obtained which is the dynamic excitation to gearbox. Second, modal analyses of the powertrain based on finite element technique show the natural frequencies and the associated mode shapes. Taking the results of the first step as the dynamic excitation, the forced vibrations for flywheel shell are examined. The simulation results show that the strength of the powertrain satisfies its design requirements, and the integrative methods present in this paper are also proved to be practical and effective.

Original language	English
Journal	SAE Technical Papers
DOIs	https://doi.org/10.4271/2007-01-0896
Publication status	Published - 2007
Event	2007 World Congress - Detroit, MI, United States Duration: 16 Apr 2007 → 19 Apr 2007

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10.4271/2007-01-0896

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title = "Study on the simulation of structural dynamic characteristics of vehicle's powertrain system",

abstract = "A vehicle's powertrain is considered, FEA and MSS methods are used to predict the system's structural characteristics in its early stage of design. First, the multibody system dynamics model of crank mechanism is established, the time response of crank mechanism's output torque can be obtained which is the dynamic excitation to gearbox. Second, modal analyses of the powertrain based on finite element technique show the natural frequencies and the associated mode shapes. Taking the results of the first step as the dynamic excitation, the forced vibrations for flywheel shell are examined. The simulation results show that the strength of the powertrain satisfies its design requirements, and the integrative methods present in this paper are also proved to be practical and effective.",

author = "Cheng Ying and Tu Hongmao and Long Kai",

year = "2007",

doi = "10.4271/2007-01-0896",

language = "English",

journal = "SAE Technical Papers",

issn = "0148-7191",

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note = "2007 World Congress ; Conference date: 16-04-2007 Through 19-04-2007",

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T1 - Study on the simulation of structural dynamic characteristics of vehicle's powertrain system

AU - Ying, Cheng

AU - Hongmao, Tu

AU - Kai, Long

PY - 2007

Y1 - 2007

N2 - A vehicle's powertrain is considered, FEA and MSS methods are used to predict the system's structural characteristics in its early stage of design. First, the multibody system dynamics model of crank mechanism is established, the time response of crank mechanism's output torque can be obtained which is the dynamic excitation to gearbox. Second, modal analyses of the powertrain based on finite element technique show the natural frequencies and the associated mode shapes. Taking the results of the first step as the dynamic excitation, the forced vibrations for flywheel shell are examined. The simulation results show that the strength of the powertrain satisfies its design requirements, and the integrative methods present in this paper are also proved to be practical and effective.

AB - A vehicle's powertrain is considered, FEA and MSS methods are used to predict the system's structural characteristics in its early stage of design. First, the multibody system dynamics model of crank mechanism is established, the time response of crank mechanism's output torque can be obtained which is the dynamic excitation to gearbox. Second, modal analyses of the powertrain based on finite element technique show the natural frequencies and the associated mode shapes. Taking the results of the first step as the dynamic excitation, the forced vibrations for flywheel shell are examined. The simulation results show that the strength of the powertrain satisfies its design requirements, and the integrative methods present in this paper are also proved to be practical and effective.

UR - http://www.scopus.com/inward/record.url?scp=85087585935&partnerID=8YFLogxK

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DO - 10.4271/2007-01-0896

M3 - Conference article

AN - SCOPUS:85087585935

SN - 0148-7191

JO - SAE Technical Papers

JF - SAE Technical Papers

T2 - 2007 World Congress

Y2 - 16 April 2007 through 19 April 2007

ER -

Study on the simulation of structural dynamic characteristics of vehicle's powertrain system

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