Synergistic effect of MWNT/fly ash incorporation on the EMI shielding/absorbing characteristics of cementitious materials

[1]  Qing Chen,et al.  Microwave Absorption Enhancement and Complex Permittivity and Permeability of Fe Encapsulated within Carbon Nanotubes , 2004 .

[2]  Haeng-Ki Lee,et al.  Enhanced effect of carbon nanotube on mechanical and electrical properties of cement composites by incorporation of silica fume , 2014 .

[3]  N. A. Siddiqui,et al.  DISPERSION AND FUNCTIONALIZATION OF CARBON NANOTUBES FOR POLYMER-BASED NANOCOMPOSITES: A REVIEW , 2010 .

[4]  D.D.L. Chung,et al.  Submicron carbon filament cement-matrix composites for electromagnetic interference shielding , 1996 .

[5]  Yuanxia Yang Methods study on dispersion of fibers in CFRC , 2002 .

[6]  H. Lee,et al.  Conductive cement matrix composites with carbon nanotube (CNT) and nanoparticles , 2013 .

[7]  Haeng-Ki Lee,et al.  Electromagnetic Characteristics of Cement Matrix Materials with Carbon Nanotubes , 2012 .

[8]  D. Cocke,et al.  Surface and bulk studies of leached and unleached fly ash using XPS, SEM, EDS and FTIR techniques , 1994 .

[9]  Oral Buyukozturk,et al.  ELECTROMAGNETIC PROPERTIES OF CONCRETE AT MICROWAVE FREQUENCY RANGE , 1998 .

[10]  Haeng-Ki Lee,et al.  Electromagnetic interference shielding/absorbing characteristics of CNT-embedded epoxy composites , 2011 .

[11]  E. Kearsley,et al.  The effect of high fly ash content on the compressive strength of foamed concrete , 2001 .

[12]  Spandan Maiti,et al.  Electromagnetic interference shielding of carbon nanotube/ethylene vinyl acetate composites , 2008 .

[13]  J. Beaudoin,et al.  Electrical percolation phenomena in cement composites containing conductive fibres , 1996, Journal of Materials Science.

[14]  Giuseppe Andrea Ferro,et al.  Improvement in electromagnetic interference shielding effectiveness of cement composites using carbonaceous nano/micro inerts , 2015 .

[15]  Rafat Siddique,et al.  Performance characteristics of high-volume Class F fly ash concrete , 2004 .

[16]  N. Boukos,et al.  Preparation and Characterization of Polyindole–Iron Oxide Composite Polymer Electrolyte Containing LiClO4 , 2012 .

[17]  Jinping Ou,et al.  Effect of water content on the piezoresistivity of MWNT/cement composites , 2010 .

[18]  Seunghun Hong,et al.  Nanotube electronics: a flexible approach to mobility. , 2007, Nature nanotechnology.

[19]  D. Chung Electromagnetic interference shielding effectiveness of carbon materials , 2001 .

[20]  Jian Wang,et al.  Graphene oxide-deposited carbon fiber/cement composites for electromagnetic interference shielding application , 2015 .

[21]  P. Garcés,et al.  Función de apantallamiento de interferencia electromagnética de pastas de cemento con materiales carbonosos y cenizas volantes procesadas , 2010 .

[22]  C. Friedrich,et al.  Mechanical properties and electrical conductivity of carbon-nanotube filled polyamide-6 and its blends with acrylonitrile/butadiene/styrene , 2004 .

[23]  G. Psarras,et al.  DC and AC conductivity in epoxy resin/multiwall carbon nanotubes percolative system , 2010 .

[24]  R. B. Morles,et al.  Electromagnetic characterization and shielding effectiveness of concrete composite reinforced with carbon nanotubes in the mobile phones frequency band , 2014 .

[25]  Haeng-Ki Lee,et al.  Influence of silica fume additions on electromagnetic interference shielding effectiveness of multi-walled carbon nanotube/cement composites , 2012 .

[26]  D. Pozar Microwave Engineering , 1990 .

[27]  Jingyao Cao,et al.  Use of fly ash as an admixture for electromagnetic interference shielding , 2004 .

[28]  N. Jaksic Learning nanotechnology through experimentation: carbon nanotube manufacturing using an electric discharge machine , 2012 .

[29]  Thomas O. Mason,et al.  AC-impedance response of multi-walled carbon nanotube/cement composites , 2006 .

[30]  D. Chung Carbon materials for structural self-sensing, electromagnetic shielding and thermal interfacing , 2012 .

[31]  Ignacio Arana,et al.  Physical Properties of Foods : Novel Measurement Techniques and Applications , 2012 .

[32]  H. Lee,et al.  Intrinsic electromagnetic radiation shielding/absorbing characteristics of polyaniline-coated transparent thin films , 2010 .

[33]  Leland H. Hemming,et al.  Architectural Electromagnetic Shielding Handbook: A Design and Specification Guide , 1992 .

[34]  S. Arabia,et al.  Influence of Chemical Composition on the Electrical Resistivity of Fly Ash Generated from Indian Coal Based Thermal Power Plants , 2013 .

[35]  Uttandaraman Sundararaj,et al.  Electromagnetic interference shielding mechanisms of CNT/polymer composites , 2009 .

[36]  A. M. Nicolson,et al.  Measurement of the Intrinsic Properties of Materials by Time-Domain Techniques , 1970 .

[37]  H. Lee,et al.  Workability, and mechanical, acoustic and thermal properties of lightweight aggregate concrete with a high volume of entrained air , 2012 .

[38]  Fan Zhang,et al.  Synthesis, Multi-Nonlinear Dielectric Resonance, and Excellent Electromagnetic Absorption Characteristics of Fe3O4/ZnO Core/Shell Nanorods , 2010 .