publication . Article . Other literature type . 2010

Research on Braking Stability of Electro-mechanical Hybrid Braking System in Electric Vehicles

Name: Research on Braking Stability of Electro-mechanical Hybrid Braking System in Electric Vehicles
Keywords: Automotive Engineering, electric vehicles, electric brake, electro-mechanical hybrid brake, braking stability, utilization adhesion coefficient

Fenzhu Ji; Mi Tian;

Open Access

Published: 26 Mar 2010 Journal: World Electric Vehicle Journal, volume 4, pages 217-223 (eissn: 2032-6653,

Publisher: MDPI AG

Summary
references
7

Abstract

For the electro-mechanical hybrid braking system, which is composed of electric brake and general friction brake, the models of electric braking force, total braking force and the utilization adhesion coefficient for front and rear axles were established based on the analysis of braking torque distribution. The variation relationship between electric braking force and friction braking force in different braking intensity was calculated and analyzed with the paralleled-hybridized braking control strategy. Taking USA urban driving circle UDDS as an example, the utilization adhesion coefficient of front and rear axles was calculated at different braking intensity f...

doi: 10.3390/wevj4010217

Subjects

free text keywords: Automotive Engineering, electric vehicles, electric brake, electro-mechanical hybrid brake, braking stability, utilization adhesion coefficient, Brake, Torque distribution, Adhesion coefficient, Braking system, Axle, Materials science

Communities

Transport Research

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World Electric Vehicle Journal

Article . 2010

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World Electric Vehicle Journal

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World Electric Vehicle Journal

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World Electric Vehicle Journal

Other literature type . 2010

Provider: Multidisciplinary Digital Publishing Institute

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