Epoxy nano-reinforced composite systems

Resource Information

The work Epoxy nano-reinforced composite systems represents a distinct intellectual or artistic creation found in University of Missouri-St. Louis Libraries. This resource is a combination of several types including: Work, Language Material, Books.

Label

Epoxy nano-reinforced composite systems

Statement of responsibility

Nicole E. Zander

Creator

• Zander, Nicole

Contributor

• Dynamic Science, Inc
• U.S. Army Research Laboratory

Subject

• Carbon nanotubes
• Clay
• Electronic government information -- United States
• Epoxy composites
• Epoxy compounds
• Government publications -- United States
• Laminates and composite materials
• Mechanical properties
• Mechanics
• Nanocomposites (Materials)
• Ammonium compounds
• Nanotubes
• Particles
• Refractory fibers
• Silicon dioxide
• Tensile strength
• Nanostructures

Genre

• Government publications
• Electronic government information

Language

eng

Summary

Mechanical properties of epoxy nanocomposite systems were evaluated for nanoclay platelets, nanosilica spheres, and carbon nanotube fillers. The effect of surface modifiers, such as quaternary ammonium salts and epoxy groups, was examined. The Young's modulus and tensile strength for epoxy-clay systems are dependent on the chain length of the alkylammonium modifier. Longer chains allowed better intercalation and mechanical properties. For nanosilica composites, interparticle distance played a key role in the toughness of the composite. Peak performance of the composite was achieved when the spacing between particles equaled the particle diameter. Surface modification with pendant epoxy groups allowed the particles to react into the matrix with the curing agent and achieve proper dispersion. Carbon nanotubes were dispersed in the epoxy matrix via a plasma treatment that afforded free radical sites for maleic anhydride grafting. Higher modulus, strength, and 2 orders of magnitude higher conductivity were observed for the functionalized carbon nanotubes

Cataloging source

DTICE

Funding information

Prepared by Dynamic Science, Inc.

Government publication

federal national government publication

Illustrations

illustrations

Index

no index present

Literary form

non fiction

Nature of contents

• dictionaries
• bibliography

Type of report

Final rept. Jul-Aug 2007.