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Micro-Stress Transfer of CNT and CNT-Interface in CNT Reinforced Mg-Matrix Composites
Advanced Materials Research, 2011The aim of the present paper is that, utilizing finite element method, considering the influence of different length of CNTs and different strength of interface to investigate the micro stress distribution of CNT reinforced magnesium matrix composite. When analyzing, the material character of magnesium is regarded as anisotropic.
Li Qing, Yu Chao
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Heat Dissipation Mechanism at Supported CNT-CNT Junctions
Volume 1: Heat Transfer in Energy Systems; Theory and Fundamental Research; Aerospace Heat Transfer; Gas Turbine Heat Transfer; Transport Phenomena in Materials Processing and Manufacturing; Heat and, 2012The thermal transport at the carbon nanotube (CNT) interfaces such as CNT-oxide and CNT-CNT junctions can significantly impact the device performance and reliability of nanotube network based thin-film transistors. For an example, the high electrical and thermal resistance at CNT junctions can cause hot spots, inefficient heat removal or even breakdown
Satish Kumar, Liang Chen
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Finite element modeling of two different CNT/polymer composites: CNT/PMMA and CNT/PmPV
2011 IEEE Nanotechnology Materials and Devices Conference, 2011Carbon nanotube (CNT) in polymeric matrix is investigating due to improvement of the structural, mechanical, thermal and electronic properties of resulting CNT/polymer composite. This improvement depends on: properties, features and volume fractions of CNTs and polymer. In this paper, there are three main parts for using an analysis on a finite element
A. Nickkholgh, P. Keyvani
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Effect of CNT length and CNT-matrix interphase in carbon nanotube (CNT) reinforced composites
Mechanics Research Communications, 2005zbMATH Open Web Interface contents unavailable due to conflicting licenses.
Wan, H., Delale, F., Shen, L.
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, 2020
It is well-known that suitable optimization of electromagnetic parameters is a feature to achieve outstanding electromagnetic wave absorption performances (EMWAPs).
Mei Wu +7 more
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It is well-known that suitable optimization of electromagnetic parameters is a feature to achieve outstanding electromagnetic wave absorption performances (EMWAPs).
Mei Wu +7 more
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, 2020
The production of carbon nanotubes (CNTs) by catalytic pyrolysis of plastics is an environmentally friendly and promising method of waste treatment and energy/materials production.
Jianqiao Wang +4 more
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The production of carbon nanotubes (CNTs) by catalytic pyrolysis of plastics is an environmentally friendly and promising method of waste treatment and energy/materials production.
Jianqiao Wang +4 more
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CNTs@S composite as cathode for all-solid-state lithium-sulfur batteries with ultralong cycle life
, 2020The main challenges in development of traditional liquid lithium-sulfur batteries are the shuttle effect at the cathode caused by the polysulfide and the safety concern at the Li metal anode arose from the dendrite formation.
Qiang Zhang +5 more
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Modeling of Thermal Conductance at Transverse CNT−CNT Interfaces
The Journal of Physical Chemistry C, 2010This article explores the transverse thermal conductance between two parallel—bonded as well as nonbonded—carbon nanotubes, embedded in an epoxy matrix using nonequilibrium molecular dynamics simul...
Vikas Varshney +3 more
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Effective Dispersion of CNTs to Fabricate CNT/Mg Nanocomposite
Materials Science Forum, 2015An effective dispersion process to cast CNT-reinforced in a concentrated magnesium alloy (AZ31) nanocomposite was investigated in this study. The metal magnesium powder was first coated with dispersed CNTs by wet process, followed by the fabricating of CNT/Mg precursor using mechanical briquetting and extrusion.
Guo Qiang Han +5 more
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Electronic transport through a CNT-Pseudopeptide-CNT hybrid material
Molecular Simulation, 2005We present electron transmission studies on a pseudopeptide fragment (P) linking two (10,0) semi-infinite carbon nanotubes (CNTs). Calculations are performed using the non-equilibrium Green function formalism (NEGF) implemented within the tight-binding molecular dynamics density functional theory code FIREBALL.
N. Bruque +4 more
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