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Probing crystal plasticity at the na...

Budiman, Arief Suriadi.

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Probing crystal plasticity at the nanoscales = Synchrotron X-ray Microdiffraction /

Record Type:	Electronic resources : Monograph/item
Title/Author:	Probing crystal plasticity at the nanoscales/ by Arief Suriadi Budiman.
Reminder of title:	Synchrotron X-ray Microdiffraction /
Author:	Budiman, Arief Suriadi.
Published:	Singapore :Springer Singapore : : 2015.,
Description:	ix, 118 p. :ill. (some col.), digital ;24 cm.
[NT 15003449]:	From the Contents: Introduction -- Synchrotron White-beam X-ray Microdiffraction at the Advanced Light Source, Berkeley Lab -- Electromigration-induced Plasticity in Cu Interconnects: The Length Scale Dependence.
Contained By:	Springer eBooks
Subject:	Crystals - Plastic properties. -
Online resource:	http://dx.doi.org/10.1007/978-981-287-335-4
ISBN:	9789812873354 (electronic bk.)

Probing crystal plasticity at the nanoscales = Synchrotron X-ray Microdiffraction /
Budiman, Arief Suriadi.

Probing crystal plasticity at the nanoscalesSynchrotron X-ray Microdiffraction /[electronic resource] :by Arief Suriadi Budiman. - Singapore :Springer Singapore :2015. - ix, 118 p. :ill. (some col.), digital ;24 cm. - SpringerBriefs in applied sciences and technology,2191-530X. - SpringerBriefs in applied sciences and technology..

From the Contents: Introduction -- Synchrotron White-beam X-ray Microdiffraction at the Advanced Light Source, Berkeley Lab -- Electromigration-induced Plasticity in Cu Interconnects: The Length Scale Dependence.

This Brief highlights the search for strain gradients and geometrically necessary dislocations as a possible source of strength for two cases of deformation of materials at small scales: nanoindented single crystal copper and uniaxially compressed single crystal submicron gold pillars. When crystalline materials are mechanically deformed in small volumes, higher stresses are needed for plastic flow. This has been called the "Smaller is Stronger" phenomenon and has been widely observed. studies suggest that plasticity in one case is indeed controlled by the GNDs (strain gradient hardening), whereas in the other, plasticity is not controlled by strain gradients or sub-structure hardening, but rather by dislocation source starvation, wherein smaller volumes are stronger because fewer sources of dislocations are available (dislocation starvation hardening).

ISBN: 9789812873354 (electronic bk.)

Standard No.: 10.1007/978-981-287-335-4doiSubjects--Topical Terms:

1642202
Crystals
--Plastic properties.

LC Class. No.: QD933

Dewey Class. No.: 548.8

Probing crystal plasticity at the nanoscales = Synchrotron X-ray Microdiffraction /
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300 $a ix, 118 p. : $b ill. (some col.), digital ; $c 24 cm.
490 1 $a SpringerBriefs in applied sciences and technology, $x 2191-530X
505 0 $a From the Contents: Introduction -- Synchrotron White-beam X-ray Microdiffraction at the Advanced Light Source, Berkeley Lab -- Electromigration-induced Plasticity in Cu Interconnects: The Length Scale Dependence.
520 $a This Brief highlights the search for strain gradients and geometrically necessary dislocations as a possible source of strength for two cases of deformation of materials at small scales: nanoindented single crystal copper and uniaxially compressed single crystal submicron gold pillars. When crystalline materials are mechanically deformed in small volumes, higher stresses are needed for plastic flow. This has been called the "Smaller is Stronger" phenomenon and has been widely observed. studies suggest that plasticity in one case is indeed controlled by the GNDs (strain gradient hardening), whereas in the other, plasticity is not controlled by strain gradients or sub-structure hardening, but rather by dislocation source starvation, wherein smaller volumes are stronger because fewer sources of dislocations are available (dislocation starvation hardening).
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