Friction and wear of friction materials containing two different phenolic resins reinforced with aramid pulp SJ Kim, H Jang Tribology international 33 (7), 477-484, 2000 | 375 | 2000 |
Tribological properties of solid lubricants (graphite, Sb2S3, MoS2) for automotive brake friction materials MH Cho, J Ju, SJ Kim, H Jang Wear 260 (7-8), 855-860, 2006 | 347 | 2006 |
Synergistic effects of aramid pulp and potassium titanate whiskers in the automotive friction material SJ Kim, MH Cho, DS Lim, H Jang Wear 251 (1-12), 1484-1491, 2001 | 271 | 2001 |
Effects of ingredients on tribological characteristics of a brake lining: an experimental case study MH Cho, SJ Kim, D Kim, H Jang Wear 258 (11-12), 1682-1687, 2005 | 267 | 2005 |
Electrochemical properties of the carbon-coated LiFePO4 as a cathode material for lithium-ion secondary batteries HC Shin, WI Cho, H Jang Journal of Power Sources 159 (2), 1383-1388, 2006 | 260 | 2006 |
The effects of antimony trisulfide (Sb2S3) and zirconium silicate (ZrSiO4) in the automotive brake friction material on friction characteristics H Jang, SJ Kim Wear 239 (2), 229-236, 2000 | 238 | 2000 |
Optimization of manufacturing parameters for a brake lining using Taguchi method SJ Kim, KS Kim, H Jang Journal of Materials Processing Technology 136 (1-3), 202-208, 2003 | 219 | 2003 |
Rate performance and structural change of Cr-doped LiFePO4/C during cycling HC Shin, SB Park, H Jang, KY Chung, WI Cho, CS Kim, BW Cho Electrochimica Acta 53 (27), 7946-7951, 2008 | 195 | 2008 |
The effect of phenolic resin, potassium titanate, and CNSL on the tribological properties of brake friction materials YC Kim, MH Cho, SJ Kim, H Jang Wear 264 (3-4), 204-210, 2008 | 187 | 2008 |
Surface roughness and the corrosion resistance of 21Cr ferritic stainless steel SM Lee, WG Lee, YH Kim, H Jang Corrosion Science 63, 404-409, 2012 | 169 | 2012 |
Complementary effects of solid lubricants in the automotive brake lining SJ Kim, MH Cho, KH Cho, H Jang Tribology international 40 (1), 15-20, 2007 | 140 | 2007 |
Electrochemical properties of LiNi0. 8Co0. 2− xAlxO2 prepared by a sol–gel method CJ Han, JH Yoon, WI Cho, H Jang Journal of power sources 136 (1), 132-138, 2004 | 138 | 2004 |
Friction and vibration of automotive brake pads containing different abrasive particles SS Kim, HJ Hwang, MW Shin, H Jang Wear 271 (7-8), 1194-1202, 2011 | 122 | 2011 |
Electrochemical properties of LiNi0. 5Mn1. 5O4 cathode after Cr doping SB Park, WS Eom, WI Cho, H Jang Journal of Power Sources 159 (1), 679-684, 2006 | 121 | 2006 |
Improvement of capacity fading resistance of LiMn2O4 by amphoteric oxides SB Park, HC Shin, WG Lee, WI Cho, H Jang Journal of Power Sources 180 (1), 597-601, 2008 | 99 | 2008 |
Asymmetry between charge and discharge during high rate cycling in LiFePO4–In Situ X-ray diffraction study HC Shin, KY Chung, WS Min, DJ Byun, H Jang, BW Cho Electrochemistry Communications 10 (4), 536-540, 2008 | 87 | 2008 |
Tribological properties of potassium titanate in the brake friction material; morphological effects KH Cho, MH Cho, SJ Kim, H Jang Tribology letters 32, 59-66, 2008 | 86 | 2008 |
Interaction of lattice dislocations with a grain boundary during nanoindentation simulation H Jang, D Farkas Materials Letters 61 (3), 868-871, 2007 | 75 | 2007 |
Brake friction materials HO Jang, SJ Kim Polymer Tribology, 506-532, 2009 | 72 | 2009 |
Tribological properties of short glass fiber reinforced polyamide 12 sliding on medium carbon steel SS Kim, MW Shin, H Jang Wear 274, 34-42, 2012 | 70 | 2012 |