Posts tagged as:

diamond

Nanomachines, Nanomaterials, and Klm

February 20, 2009

Toward Advanced Nanotechnology: Nanomaterials (5)
My previous post in this series, Nanostructures, Nanomaterials, and Lattice-Scaled Stiffness, explains why the lattice-scaled modulus, Klm, is an important figure of merit: For a set of machines made of different materials, but with similar structures (similar numbers and arrangements of lattice cells), the Klm parameter determines the energy required [...]

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Toward Advanced Nanotechnology:

Nanomaterials (3)

February 8, 2009

Mechanical engineering meets thermal fluctuations
Thermal fluctuations distort nanoscale structures, and this makes them an enemy of nanotechnologies that rely on precise mechanical motion. Indeed, if one were to set aside design and calculation and instead substitute guesses (I’m not naming guilty parties here), one might suppose that this would prevent nanomechanical engineers from designing reliable [...]

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Toward Advanced Nanotechnology:

Nanomaterials (2)

January 16, 2009

As every mechanical engineer knows, the stiffness of a material — its elastic modulus — is often a critical property; likewise in nanomechanical engineering, though in part for a different reason. I’d like to say a few words about this, then discuss some materials of interest in implementing nanosystems. And there is something I must [...]

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Toward Advanced Nanotechnology:

Nanomaterials (1)

December 27, 2008

The widespread obsession with diamond nanotechnologies is peculiar: How did the idea of molecular manufacturing, a general approach to organizing mechanosynthesis, been become so closely identified with making diamond?

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