Ho Jang

Overview

Best Publications

• Electrochemical properties of carbon-coated LiFePO4 cathode using graphite, carbon black, and acetylene black

  Ho Chul Shin;Won Il Cho;Ho Jang

  387
  Citations

• The effect of metal fibers on the friction performance of automotive brake friction materials

  H Jang;K Ko;S.J Kim;R.H Basch

  381
  Citations

• Friction and wear of friction materials containing two different phenolic resins reinforced with aramid pulp

  Seong Jin Kim;Ho Jang

  352
  Citations

• Tribological properties of solid lubricants (graphite, Sb2S3, MoS2) for automotive brake friction materials

  Min Hyung Cho;Jeong Ju;Seong Jin Kim;Seong Jin Kim;Ho Jang

  308
  Citations

• Electrochemical properties of the carbon-coated LiFePO4 as a cathode material for lithium-ion secondary batteries

  Ho Chul Shin;Ho Chul Shin;Won Il Cho;Ho Jang

  265
  Citations

• Synergistic effects of aramid pulp and potassium titanate whiskers in the automotive friction material

  S.J. Kim;M.H. Cho;D.-S. Lim;H. Jang

  259
  Citations

• Effects of ingredients on tribological characteristics of a brake lining: an experimental case study

  Min Hyung Cho;Seong Jin Kim;Daehwan Kim;Ho Jang

  255
  Citations

• The effects of antimony trisulfide (Sb2S3) and zirconium silicate (ZrSiO4) in the automotive brake friction material on friction characteristics

  Ho Jang;Seong Jin Kim

  224
  Citations

• Compositional effects of the brake friction material on creep groan phenomena

  H. Jang;J.S. Lee;J.W. Fash

  223
  Citations

• Optimization of manufacturing parameters for a brake lining using Taguchi method

  Seong Jin Kim;Kwang Seok Kim;Ho Jang

  217
  Citations

• Rate performance and structural change of Cr-doped LiFePO4/C during cycling

  Ho Chul Shin;Sung Bin Park;Ho Jang;Kyung Yoon Chung

  202
  Citations

• Wear mechanism of multiphase friction materials with different phenolic resin matrices

  U.S. Hong;U.S. Hong;S.L. Jung;K.H. Cho;M.H. Cho

  190
  Citations

• The effect of phenolic resin, potassium titanate, and CNSL on the tribological properties of brake friction materials

  Yun Cheol Kim;Min Hyung Cho;Seong Jin Kim;Ho Jang

  175
  Citations

• Surface roughness and the corrosion resistance of 21Cr ferritic stainless steel

  Sang Mok Lee;Wan Gyu Lee;Yeong Ho Kim;Ho Jang

  174
  Citations

• Effect of CNT distribution on tribological behavior of alumina–CNT composites

  D.-S. Lim;D.-H. You;H.-J. Choi;S.-H. Lim

  163
  Citations

• Tribological study of gray cast iron with automotive brake linings: The effect of rotor microstructure

  M.H Cho;S.J Kim;R.H Basch;J.W Fash

  158
  Citations

• The Role of Transfer Layers on Friction Characteristics in the Sliding Interface between Friction Materials against Gray Iron Brake Disks

  M. H. Cho;K. H. Cho;S. J. Kim;D. H. Kim

  139
  Citations

• Electrochemical properties of LiNi0.8Co0.2−xAlxO2 prepared by a sol–gel method

  Chang Joo Han;Jang Hyuk Yoon;Won Il Cho;Ho Jang

  137
  Citations

• Tribological performance of brake friction materials containing carbon nanotubes

  H.J. Hwang;S.L. Jung;K.H. Cho;Y.J. Kim

  134
  Citations

• Complementary effects of solid lubricants in the automotive brake lining

  Seong Jin Kim;Min Hyung Cho;Keun Hyung Cho;Ho Jang

  124
  Citations