Add to ORKGDr. Ritchie writes: The perspective “Structural Nanocomposites” (Y. Dzenis, 25 January, p. 419) describes a quest for improved structural materials and indicates that composites with nanoscale reinforcements would have “exceptional mechanical properties.” Is this true? Why would reinforcements that are small in size or volume offer any particular benefit over larger-scale reinforcements? As the Perspective correctly asserts, if the composite material is to be used for a small-volume structure, clearly the reinforcements must also be small. In addition, small-volume reinforcements are stronger, as has been known since the early days of research on whiskers (1). In this regard, reinforcement by carbon nanotubes, for example, which are thoug...
We report on mechanical tests on interpenetrating-phase nanocomposite materials made by vacuum impre...
Carbon nanotubes exhibit many unique mechanical and electrical properties depending on their sizes, ...
Decreasing scales effectively increase nearly all important mechanical properties of at least some "...
Materials scientists predict that composites made with nanoscale reinforcing materials such as nanot...
The ideal structural material would be high strength and stiffness, with a tough ductile failure, al...
The positive influence of nanomaterials and particles on the behavior of composite material structu...
The scientific literature is full of claims for the exceptional potentialities of nanoscale reinforc...
Structural materials used for safety critical applications require high strength and simultaneously ...
o date, carbon nanotubes (CNTs) are the strongest single molecules measured and are known to have an...
The theoretical strength of a material is the minimum stress to deform or fracture the perfect singl...
Few engineering materials are limited by their strength; rather they are limited by their resistance...
© 2018 Elsevier Ltd The success of carbon nanotubes (CNTs) in increasing toughness of polymers and t...
Novel superhard nanocomposites prepared according to the generic design concept wThin Solid Films 26...
Carbon nanotubes have unprecedented mechanical properties as defect-free nanoscale building blocks, ...
non-peer-reviewedWon Best Presentation by a Young ResearcherIn the discipline of nanomaterials, the ...
We report on mechanical tests on interpenetrating-phase nanocomposite materials made by vacuum impre...
Carbon nanotubes exhibit many unique mechanical and electrical properties depending on their sizes, ...
Decreasing scales effectively increase nearly all important mechanical properties of at least some "...
Materials scientists predict that composites made with nanoscale reinforcing materials such as nanot...
The ideal structural material would be high strength and stiffness, with a tough ductile failure, al...
The positive influence of nanomaterials and particles on the behavior of composite material structu...
The scientific literature is full of claims for the exceptional potentialities of nanoscale reinforc...
Structural materials used for safety critical applications require high strength and simultaneously ...
o date, carbon nanotubes (CNTs) are the strongest single molecules measured and are known to have an...
The theoretical strength of a material is the minimum stress to deform or fracture the perfect singl...
Few engineering materials are limited by their strength; rather they are limited by their resistance...
© 2018 Elsevier Ltd The success of carbon nanotubes (CNTs) in increasing toughness of polymers and t...
Novel superhard nanocomposites prepared according to the generic design concept wThin Solid Films 26...
Carbon nanotubes have unprecedented mechanical properties as defect-free nanoscale building blocks, ...
non-peer-reviewedWon Best Presentation by a Young ResearcherIn the discipline of nanomaterials, the ...
We report on mechanical tests on interpenetrating-phase nanocomposite materials made by vacuum impre...
Carbon nanotubes exhibit many unique mechanical and electrical properties depending on their sizes, ...
Decreasing scales effectively increase nearly all important mechanical properties of at least some "...