Electromagnetic interference shielding effectiveness of carbon materials | Carbon | 2001 | 1.4K |
Review Graphite | Journal of Materials Science | 2002 | 589 |
Carbon materials for structural self-sensing, electromagnetic shielding and thermal interfacing | Carbon | 2012 | 436 |
Thermally conducting aluminum nitride polymer-matrix composites | Composites Part A: Applied Science and Manufacturing | 2001 | 420 |
Materials for electromagnetic interference shielding | Journal of Materials Engineering and Performance | 2000 | 385 |
Electromagnetic interference shielding using continuous carbon-fiber carbon-matrix and polymer-matrix composites | Composites Part B: Engineering | 1999 | 288 |
Electrical applications of carbon materials | Journal of Materials Science | 2004 | 240 |
Cement reinforced with short carbon fibers: a multifunctional material | Composites Part B: Engineering | 2000 | 235 |
Increasing the thermal conductivity of boron nitride and aluminum nitride particle epoxy-matrix composites by particle surface treatments | Composite Interfaces | 2000 | 220 |
Nickel filament polymer-matrix composites with low surface impedance and high electromagnetic interference shielding effectiveness | Journal of Electronic Materials | 1997 | 186 |
Review: Materials for vibration damping | Journal of Materials Science | 2001 | 154 |
Piezoresistive Cement-Based Materials for Strain Sensing | Journal of Intelligent Material Systems and Structures | 2002 | 151 |
Concrete as a new strain/stress sensor | Composites Part B: Engineering | 1996 | 151 |
Thermal interface materials | Journal of Materials Engineering and Performance | 2001 | 147 |
A review of exfoliated graphite | Journal of Materials Science | 2016 | 144 |
Self-sensing of flexural strain and damage in carbon fiber polymer-matrix composite by electrical resistance measurement | Carbon | 2006 | 138 |
Comparison of submicron-diameter carbon filaments and conventional carbon fibers as fillers in composite materials | Carbon | 2001 | 133 |
Electromagnetic interference shielding reaching 70 dB in steel fiber cement | Cement and Concrete Research | 2004 | 130 |
Partial replacement of carbon fiber by carbon black in multifunctional cement–matrix composites | Carbon | 2007 | 128 |
Carbon fiber-reinforced concrete for traffic monitoring and weighing in motion | Cement and Concrete Research | 1999 | 122 |
Dispersion of Short Fibers in Cement | Journal of Materials in Civil Engineering | 2005 | 121 |
A comparative study of steel- and carbon-fibre cement as piezoresistive strain sensors | Advances in Cement Research | 2003 | 118 |
Carbon black dispersions as thermal pastes that surpass solder in providing high thermal contact conductance | Carbon | 2003 | 111 |
Improving the electrical conductivity of composites comprised of short conducting fibers in a nonconducting matrix: The addition of a nonconducting particulate filler | Journal of Electronic Materials | 1995 | 111 |
Graphite nanoplatelet pastes vs. carbon black pastes as thermal interface materials | Carbon | 2009 | 108 |