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Shin, Sanghee
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The Factors Governing Corrosion Stiction of Brake Friction Materials to a Gray Cast Iron Disc

Hyundai Mobis-Wangyu Lee, Dooyeon Kim, Keeyang Lee
Korea Univ.-Jaehyun Gweon, Sanghee Shin, Ho Jang
Published 2018-10-05 by SAE International in United States
Corrosion stiction at the contact interface between a brake friction material and a gray iron disc under the parking brake condition was investigated by evaluating the possible parameters that affect the shear force to detach the corroded interface. Using production brake friction materials, comprising non-steel and low-steel types, corrosion tests were carried out by pressing the brake pad onto the gray iron disc using a clamp at various conditions. Results showed that the shear force to detach the corroded interface tended to increase with applied pressure and corrosion time. On the other hand, porosity, acidity, and hydrophobicity of the friction material did not show a reliable correlation to the stiction force. The poor correlation of the stiction force with the friction material properties indicated that the stiction force was not determined by a single factor but governed by multiple parameters including surface contact areas and inhomogeneity of the ingredients. Microscopic observation of the detached disc surface showed adhered fragments that were removed from the friction material surface, thus shedding light on the possible estimation of…
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A Method of Gear-shift in Parallel Hybrid Electric Vehicle using Motor Control

Continental Inc.-SungWoo Hong
Hyundai-Kia R&D Center-Sanghee Shin, Jonghan Oh, JoungChul Kim
Published 2010-04-12 by SAE International in United States
To alleviate vibration of power-train system in hybrid electric vehicle (HEV) is one of the most difficult obstacles that most of engineers would face. The vibration of gear-shifting would be hider by precise synchronization of applied members in gear-shifting process; however, improvement of the vibration by calibrating conventional hydraulic control was limited. To transcend the limitation of hydraulic method, we developed a combined gear-shifting method assisted by motor speed feedback control to synchronize an input speed of transmission with a target input speed exactly. We divided a whole gear-shifting process into the following five phases to combined hydraulic control with motor speed control. In addition, to prevent the additional vibration, motor speed feedback control starts at the second phase and parameters of motor feedback control are categorized by each phases. By means of the method stated above, we can shorten the whole time of gear-shifting process and improve the feeling of gear-shift by reduction of shift vibration.
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