Results 11 to 20 of about 479 (195)

Torque Enhancement for a New Magnetorheological Brake

open access: yesProcedia Engineering, 2014
AbstractThe conventional magnetorheological fluid (MR) brake has been used as resistant sources for specific applications. However, the limited torque prevents it to be widely commercialized. This paper presents a new MR brake that improves the brake torque by enlarging the magnetic field strength.
Yaojung Shiao, Quang-Anh Nguyen
exaly   +3 more sources

Design and Research of a Novel Magnetorheological Brake with Double Coils Ripple

open access: yesJixie chuandong, 2018
In order to improve the braking torque of the traditional magnetorheological brake with double coils placed on side housing,a novel magnetorheological brake with double coils ripple is proposed.
Zhao Chong, Ma Xiaojuan
doaj   +2 more sources

Electromagnetic Interaction Model between an Electric Motor and a Magnetorheological Brake [PDF]

open access: yesDesigns
This article focuses on modelling and validating a groundbreaking magnetorheological braking system. Addressing shortcomings in traditional automotive friction brake systems, including response delays, wear, and added mass from auxiliary components, the ...
Sidorela Caushaj   +3 more
doaj   +2 more sources

Research and Optimization on Performance of Magnetorheological Brake in Consideration of Eccentricity Compression

open access: yesJixie chuandong, 2022
Aiming at problems of low braking torque and transmission efficiency of the gap of uniform clearance magnetorheological fluid brake and according to the principle of squeeze enhancement effect of magnetorheological fluid,an eccentric magnetorheological ...
Song Chen   +3 more
doaj   +2 more sources

Effect of Effective Working Gap Position on Braking Performance of T-type Magnetorheological Brake

open access: yesJixie chuandong, 2021
Aiming at the effect of different position and quantity working gaps of T-type magnetorheological(MR) brake on braking performance, combined with theoretical modeling and simulation analysis, the braking torque and magnetic field distribution of T-type ...
Yuming Huang, Jie Wu, Bingbing Deng
doaj   +2 more sources

Braking characterization of a multi-arc cylindrical magnetorheological fluid brake

open access: yesAdvances in Mechanical Engineering
To enhance the braking torque, this study proposes a multi-arc cylindrical magnetorheological fluid brake. Firstly, the structure and operational principle of the multi-arc cylindrical magnetorheological fluid brake is described in detail. Through finite
Jianzuo Ma   +4 more
doaj   +2 more sources

ANALYSIS OF MAGNETORHEOLOGICAL FLUID BRAKE CONTROLLED BY SHAPE MEMORY ALLOY

open access: yesJixie qiangdu, 2016
This paper aims to propose a cylindrical magnetorheological fluid brake controlled by shape memory alloy,based on the shape memory effect of shape memory alloy under thermal effect and the rheological behavior of magnetorheological fluid.The shape memory
ZHAO BaiSen, FU Tian, MA Rui
doaj   +2 more sources

Development of magnetorheological brake with two coils placed on each side of the brake housing [PDF]

open access: yesVietnam Journal of Mechanics, 2015
In this study a new configuration of magneto-rheological brake (MRB) with  two coils placed on each side of the brake housing is proposed, optimally  designed and evaluated. With this configuration, the MRB is expected to  provide higher braking torque,
Nguyen Quoc Hung   +2 more
doaj   +2 more sources

A Study of Novel Hybrid Antilock Braking System Employing Magnetorheological Brake

open access: yesAdvances in Mechanical Engineering, 2014
A novel hybrid antilock braking system (ABS) with the combination of auxiliary brake and a multipole magnetorheological (MR) brake was proposed in this paper.
Yaojung Shiao   +2 more
doaj   +2 more sources

Investigating the Impact of Circular Sector Pole Head Structure on the Performance of a Multipole Magnetorheological Brake

open access: yesApplied Sciences
The magnetorheological brake (MRB) epitomized a revolutionary modification in the braking systems because of its extremely efficient and well-controlled performance.
Yaojung Shiao, Manichandra Bollepelly
doaj   +2 more sources

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