Treatise on Materials Science and Technology, Volume 1 |
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Page 60
( b ) What is the critical driving force AGk * for the onset of the uniform attachment
mechanism ? ( c ) What are the kinetics of layer generation from the various kinds
of sources potentially available to the crystal ? The first question has , to some ...
( b ) What is the critical driving force AGk * for the onset of the uniform attachment
mechanism ? ( c ) What are the kinetics of layer generation from the various kinds
of sources potentially available to the crystal ? The first question has , to some ...
Page 64
In fact , evidence abounds to support the layer growth mechanisms ; however , it
is not so readily available for the uniform advance ... ( b ) Certain qualitative
kinetic observations can be used as evidence of a layer mechanism of crystal
growth .
In fact , evidence abounds to support the layer growth mechanisms ; however , it
is not so readily available for the uniform advance ... ( b ) Certain qualitative
kinetic observations can be used as evidence of a layer mechanism of crystal
growth .
Page 238
titanium addition alloy could not be explained , therefore , in terms of the
scavenging mechanism . Furthermore , from their strain rate analysis they found
that the rate controlling mechanism responsible for the solution weakening was
the ...
titanium addition alloy could not be explained , therefore , in terms of the
scavenging mechanism . Furthermore , from their strain rate analysis they found
that the rate controlling mechanism responsible for the solution weakening was
the ...
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Common terms and phrases
addition alloys analysis angle applied approach associated assumed atoms average becomes bond boundary calculated complex composite concentration consider constants contribution crystal curvature curve decrease defined dependence deposition determined developed direction discussed displacement distance distribution dynamical effect elastic electron elements energy equal equation exist experimental fibers force fracture function given gives grain grain boundaries Group growth growth path illustrated increase indicate interaction interface internal friction interstitial iron laminate lattice layer length material matrix measured mechanism metal microstructural molecules nitrogen normal nucleation observed obtained occur oxygen particles peak phase plane position possible potential present produce properties region reinforcing relaxation respectively shown in Fig shows single Snoek peak solid solution strain strength stress structure substitutional surface Table temperature tungsten unit values volume waves
Bibliographic information
| Title | Treatise on Materials Science and Technology, Volume 1 Treatise on Materials Science and Technology, ScienceDirect (Online service) |
| Editor | Herbert Herman |
| Publisher | Academic Press, 1972 |
| Original from | the University of Michigan |
| Digitized | 29 Nov 2007 |
| Export Citation | BiBTeX EndNote RefMan |