Analysis of Intrinsic Characteristics and Dynamic Response of New Energy Vehicle Battery Pack System-Reference-Cited by-同舟云学术

Analysis of Intrinsic Characteristics and Dynamic Response of New Energy Vehicle Battery Pack System

Published:2024-04-09 Issue: Volume: Page:
ISSN:0148-7191
Container-title:SAE Technical Paper Series
language:
Short-container-title:

Author:

Guo Yi Ming¹,Shao Xiaowei¹,Xiao Lei²,Li GuoHong²,Shangguan Wen-Bin³

Affiliation:

1. Hubei University of Automotive Technology

2. Shiyan Dongsen Automotive Seals Co., Ltd.

3. South China University of Technology

Abstract

<div class="section abstract"><div class="htmlview paragraph">As the main power source of new energy vehicles, the durability and fatigue characteristics of the battery pack directly affect the performance of the vehicle. The battery pack system was modelled using multi-body dynamics software, with 7 and 13 degree of freedom models developed. Using the established model, the intrinsic properties of the battery pack are computationally analyzed. To calculate the dynamic characteristics, a sinusoidal displacement excitation is applied to the wheel centre of mass, and the displacement and acceleration of the battery pack centre of mass are calculated for both models.The displacement and acceleration curves at the centre of mass of the battery pack of the two models are compared. The results show that the amplitude of the displacement and acceleration curves at the centre of mass of the 13 degrees of freedom model of the battery pack has decreased significantly.</div></div>

Publisher

SAE International

Reference21 articles.

1. Xiaohong , Z. , Feng , Z. , Qi , F. et al. Design Research on Carbon Fiber Case of Automotive Power Battery Shanghai Automobile 9 2014 62 63

2. Jiangliang , D. Random Vibration Fatigue Analysis and Structural Design Improvement Based on Power Battery Pack of a Model Mechanical Strength 43 3 2021 1266 1270

3. Luo , W.P. and Dong , P. Decoupling and Optimization of Powertrain Suspension for a Bus Automotive Maintenance 3 2022 12 14

4. Xiao-ang , L. , Shangguan , W.-B. , Jihong , Q. et al. Methods of Computing Powertrain Rigid Body Modes with Different Models Vibration, Testing and Diagnostics 36 2 2016 269 275

5. Chen , L. , Shen , H. , Zhang , X. , and Gao , J. A Novel Compliance Constrained Mass Optimization Framework for Vehicle Suspension Subframe Structures SAE Int. J. Veh. Dyn., Stab., and NVH 4 2 2020 109 118