Load transfer and deformation mechanisms in carbon nanotube-polystyrene composites

Abstract

Multiwall carbon nanotubes have been dispersed homogeneously throughout polystyrene matrices by a simple solution-evaporation method without destroying the integrity of the nanotubes. Tensile tests on composite films show that 1 wt % nanotube additions result in 36%–42% and ∼25% increases in elastic modulus and break stress, respectively, indicating significant load transfer across the nanotube-matrix interface. In situ transmission electron microscopy studies provided information regarding composite deformation mechanisms and interfacial bonding between the multiwall nanotubes and polymer matrix.

References

Page 1

	Year	Citations
Exceptionally high Young's modulus observed for individual carbon nanotubes M.M.J. Treacy, Thomas W. Ebbesen, J. M. Gibson Nature Materials ScienceEngineeringCarbon-based MaterialHigh YoungNanomaterials	1996	5.4K
Strength and Breaking Mechanism of Multiwalled Carbon Nanotubes Under Tensile Load Min-Feng Yu, O. Lourie, Mark J. Dyer, Science EngineeringBreaking MechanismMechanical EngineeringCarbon-based MaterialTensile Load	2000	5.2K
Nanobeam Mechanics: Elasticity, Strength, and Toughness of Nanorods and Nanotubes Eric W. M. Wong, Paul E. Sheehan, Charles M. Lieber Science Atomic Force MicroscopyNanosheetEngineeringMicromechanicsMechanical Engineering	1997	4.8K
Science of fullerenes and carbon nanotubes Lawrence B. Ebert Carbon Materials ScienceEngineeringCarbon-based MaterialNanomaterialsCarbon Nanotechnology	1997	4.5K
Electrostatic Deflections and Electromechanical Resonances of Carbon Nanotubes P. Poncharal, Zhong Lin Wang, D. Ugarte, Science Fundamental FrequencyEngineeringMicroscopyCarbon-based MaterialNanoelectronics	1999	1.9K
Load transfer in carbon nanotube epoxy composites Linda S. Schadler, S. C. Giannaris, Pulickel M. Ajayan Applied Physics Letters Materials ScienceReinforcement MaterialEngineeringCarbon-based MaterialMechanical Properties	1998	1.6K
Aligned Carbon Nanotube Arrays Formed by Cutting a Polymer Resin—Nanotube Composite Pulickel M. Ajayan, Odile Stéphan, C. Colliex, Science EngineeringCarbon NanotechnologyMechanical EngineeringNanostructured PolymerPolymer Nanocomposites	1994	1.5K
Development of a dispersion process for carbon nanotubes in an epoxy matrix and the resulting electrical properties Jan K.W. Sandler, Milo S. P. Shaffer, Torsten Prasse, Polymer Materials ScienceGraphene NanomeshesElectrical EngineeringGraphene-based Nano-antennasEngineering	1999	1.4K
Continuous production of aligned carbon nanotubes: a step closer to commercial realization Rodney Andrews, David A. Jacques, Apparao M. Rao, Chemical Physics Letters Materials ScienceAligned Carbon NanotubesChemical EngineeringEngineeringCarbon-based Material	1999	910
Stress-induced fragmentation of multiwall carbon nanotubes in a polymer matrix H. Daniel Wagner, O. Lourie, Yishay Feldman, Applied Physics Letters EngineeringMechanical EngineeringCarbon-based MaterialHigh-performance FiberMechanics	1998	886

Page 1