This book provides a broad overview on the relationship between structure and mechanical properties of carbon nanomaterials from world-leading scientists in the field. The main aim is to get an in-depth understanding of the broad range of mechanical properties of carbon materials based on their unique nanostructure and on defects of several types and at different length scales. Besides experimental work mainly based on the use of (in-situ) Raman and X-ray scattering and on nanoindentation, the book also covers some aspects of multiscale modeling of the mechanics of carbon nanomaterials.
This book provides a broad overview on the relationship between structure and mechanical properties of carbon nanomaterials from world-leading scientists in the field. The main aim is to get an in-depth understanding of the broad range of mechanical properties of carbon materials based on their unique nanostructure and on defects of several types and at different length scales. Besides experimental work mainly based on the use of (in-situ) Raman and X-ray scattering and on nanoindentation, the book also covers some aspects of multiscale modeling of the mechanics of carbon nanomaterials.
Produktdetails
Produktdetails
CISM International Centre for Mechanical Sciences 563
Carbon fibers: local structure and nanomechanical properties from X-ray diffraction.- Carbon fibers and -composites: the Raman G-band as a local stress-sensor.- Carbon nanotubes under shear.- Carbon nanotubes under pressure.- Atomistic and continuum modeling of graphene and graphen-derived carbon nanomaterials.- Continuum modeling collapse of carbon nanotubes.- Deformation of vertically aligned carbon nanotube forest.- Graphene and graphene composites.
Carbon fibers: local structure and nanomechanical properties from X-ray diffraction.- Carbon fibers and -composites: the Raman G-band as a local stress-sensor.- Carbon nanotubes under shear.- Carbon nanotubes under pressure.- Atomistic and continuum modeling of graphene and graphen-derived carbon nanomaterials.- Continuum modeling collapse of carbon nanotubes.- Deformation of vertically aligned carbon nanotube forest.- Graphene and graphene composites.
Carbon fibers: local structure and nanomechanical properties from X-ray diffraction.- Carbon fibers and -composites: the Raman G-band as a local stress-sensor.- Carbon nanotubes under shear.- Carbon nanotubes under pressure.- Atomistic and continuum modeling of graphene and graphen-derived carbon nanomaterials.- Continuum modeling collapse of carbon nanotubes.- Deformation of vertically aligned carbon nanotube forest.- Graphene and graphene composites.
Carbon fibers: local structure and nanomechanical properties from X-ray diffraction.- Carbon fibers and -composites: the Raman G-band as a local stress-sensor.- Carbon nanotubes under shear.- Carbon nanotubes under pressure.- Atomistic and continuum modeling of graphene and graphen-derived carbon nanomaterials.- Continuum modeling collapse of carbon nanotubes.- Deformation of vertically aligned carbon nanotube forest.- Graphene and graphene composites.
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