Evolution of the carbon nanotube bundle structure under biaxial and shear strains
LK Rysaeva, DV Bachurin, RT Murzaev… - Facta Universitatis …, 2020 - casopisi.junis.ni.ac.rs
Close packed carbon nanotube bundles are materials with highly deformable elements, for
which unusual deformation mechanisms are expected. Structural evolution of the zigzag …
which unusual deformation mechanisms are expected. Structural evolution of the zigzag …
Chain model for carbon nanotube bundle under plane strain conditions
EA Korznikova, LK Rysaeva, AV Savin, EG Soboleva… - Materials, 2019 - mdpi.com
Carbon nanotubes (CNTs) have record high tensile strength and Young's modulus, which
makes them ideal for making super strong yarns, ropes, fillers for composites, solid …
makes them ideal for making super strong yarns, ropes, fillers for composites, solid …
Molecular Dynamics study on buckling behavior of vertically aligned carbon nanotube (VACNT) bundles with characterized waviness
The buckling behavior of vertically aligned carbon nanotube (VACNT) bundles with a
characterized waviness ratio was studied using the principle of sinusoidal waves. A …
characterized waviness ratio was studied using the principle of sinusoidal waves. A …
Elastic damper based on the carbon nanotube bundle
LK Rysaeva, EA Korznikova… - Facta Universitatis …, 2020 - casopisi.junis.ni.ac.rs
Mechanical response of the carbon nanotube bundle to uniaxial and biaxial lateral
compression followed by unloading is modeled under plane strain conditions. The chain …
compression followed by unloading is modeled under plane strain conditions. The chain …
Phase transitions during compression and decompression of clots from platelet-poor plasma, platelet-rich plasma and whole blood
Blood clots are required to stem bleeding and are subject to a variety of stresses, but they
can also block blood vessels and cause heart attacks and ischemic strokes. We measured …
can also block blood vessels and cause heart attacks and ischemic strokes. We measured …
Superior mechanical properties by exploiting size-effects and multiscale interactions in hierarchically architected foams
Protective applications in extreme environments demand materials with superior modulus,
strength, and specific energy absorption (SEA) at lightweight. They must also have the ability …
strength, and specific energy absorption (SEA) at lightweight. They must also have the ability …
Phase transformation as the mechanism of mechanical deformation of vertically aligned carbon nanotube arrays: Insights from mesoscopic modeling
Vertically aligned carbon nanotube (VACNT) arrays or “forests” behave mechanically as
foams when compressed, exhibiting a characteristic nonlinear stress–strain response …
foams when compressed, exhibiting a characteristic nonlinear stress–strain response …
Mechanical response of carbon nanotube bundle to lateral compression
Structure evolution and mechanical response of the carbon nanotube (CNT) bundle under
lateral biaxial compression is investigated in plane strain conditions using the chain model …
lateral biaxial compression is investigated in plane strain conditions using the chain model …
Mesoscopic modeling of the uniaxial compression and recovery of vertically aligned carbon nanotube forests
Vertically aligned carbon nanotube (VACNT) arrays or “forests” represent a promising class
of mechanically strong and resilient lightweight materials, capable of supporting large …
of mechanically strong and resilient lightweight materials, capable of supporting large …
Strong, ultralight nanofoams with extreme recovery and dissipation by manipulation of internal adhesive contacts
Advances in three-dimensional nanofabrication techniques have enabled the development
of lightweight solids, such as hollow nanolattices, having record values of specific stiffness …
of lightweight solids, such as hollow nanolattices, having record values of specific stiffness …