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Growth diagrams

Dickson, J.A.D. (1993) Crystal-growth diagrams as an aid to interpreting the fabrics of calcite aggregates. Journal of Sedimentary Petrology 63, 1-17. [Pg.237]

Figure 8. Schematic representation of the growth diagram of nanosheet and nanorods/nanoparticles of Ti02- (Redrawn from Pavasupree et al. [122] with permission from publisher, Elsevier. License Number 2627090439895). Figure 8. Schematic representation of the growth diagram of nanosheet and nanorods/nanoparticles of Ti02- (Redrawn from Pavasupree et al. [122] with permission from publisher, Elsevier. License Number 2627090439895).
Further, it should be emphasized that the nature of the active N itself, that is, ammonia or N plasma, drastically influences growth kinetics. Actually, the above considerations on the growth diagram as well as all experimental results reported in this chapter refer to plasma-assisted molecular-beam epitaxy (MBE), active N being obtained by radio frequency cracking of N2 in a plasma cell. [Pg.359]

Retransformation of the data set for R=1 from Step 3 into the synthetic crack growth diagram from Step 2 in order to generate a synthetic crack growth cmve for static load (creep crack growth (CCG) cmve). [Pg.326]

Fig. 4. Schematic diagram of one of the arrangements for the flux-reaction growth of synthetic emerald (2). Fig. 4. Schematic diagram of one of the arrangements for the flux-reaction growth of synthetic emerald (2).
Fig. 14. Phase diagrams of HgCdTe used to defiae the Hquid-phase epitaxial growth process where composition is ia mole fractioa, X, and the numbers represent temperatures ia °C (a) Te-rich corner where the dotted Haes A—F correspoad to values of of 0.1, 0.2, 0.3, 0.5, 0.8, and 0.9, respectively, and (b) Hg-rich corner where A—F correspond to values of X of 0.9, 0.8, 0.6, 0.4, 0.2, and 0.1, respectively. Fig. 14. Phase diagrams of HgCdTe used to defiae the Hquid-phase epitaxial growth process where composition is ia mole fractioa, X, and the numbers represent temperatures ia °C (a) Te-rich corner where the dotted Haes A—F correspoad to values of of 0.1, 0.2, 0.3, 0.5, 0.8, and 0.9, respectively, and (b) Hg-rich corner where A—F correspond to values of X of 0.9, 0.8, 0.6, 0.4, 0.2, and 0.1, respectively.
Fig. 1. Carbon-phase diagram where A, solvent-cataly2ed diamond growth B—G, diamond formation direcdy from graphite C, graphite formation from diamond, D, approximate region where formation of Lonsdaleite occurs from weU-ordered graphite crystals (7,8). To convert GPa to atm, multiply by... Fig. 1. Carbon-phase diagram where A, solvent-cataly2ed diamond growth B—G, diamond formation direcdy from graphite C, graphite formation from diamond, D, approximate region where formation of Lonsdaleite occurs from weU-ordered graphite crystals (7,8). To convert GPa to atm, multiply by...
We can find a good example of this diffusion-controlled growth in plain carbon steels. As we saw in the "Teaching Yourself Phase Diagrams" course, when steel is cooled below 723°C there is a driving force for the eutectoid reaction of... [Pg.63]

Figure 13.19 Ribbon diagram of the stmcture of the extracellular domain of the human growth hormone. The hormone-binding region is formed by loops (yellow) at the hinge region between two fibronectin type III domains. (Adapted from J. Wells et al., Annu. Rev. Figure 13.19 Ribbon diagram of the stmcture of the extracellular domain of the human growth hormone. The hormone-binding region is formed by loops (yellow) at the hinge region between two fibronectin type III domains. (Adapted from J. Wells et al., Annu. Rev.
Figure 13.20 Ribbon diagram of the structure of a 1 2 complex between the human growth hormone and the extracellular domains of two receptor molecules. The two receptor molecules (blue) bind the hormone (red) with essentially the same loop regions (yellow). Figure 13.20 Ribbon diagram of the structure of a 1 2 complex between the human growth hormone and the extracellular domains of two receptor molecules. The two receptor molecules (blue) bind the hormone (red) with essentially the same loop regions (yellow).
Fig. 7. Bachmann diagram for CVD diamond film growth (adapted from [80].)... Fig. 7. Bachmann diagram for CVD diamond film growth (adapted from [80].)...
Fig. 17. Growth mechanism of a (9/i,0)-(5n,5n) knee involving from 24 to 20 coordination sites of the catalyst, (a)-(g) Planar representation of the successive tubule growing steps (g ) Schlegel diagram representation of the whole knee with the Ci numbering corresponding to that of the individual steps (a)-(g). Fig. 17. Growth mechanism of a (9/i,0)-(5n,5n) knee involving from 24 to 20 coordination sites of the catalyst, (a)-(g) Planar representation of the successive tubule growing steps (g ) Schlegel diagram representation of the whole knee with the Ci numbering corresponding to that of the individual steps (a)-(g).
Fig. 19. Schlegel diagram of the (9,0)-( 5,5) knee after replacing the vacant bonds by hydrogen. All of the double bonds are localized according to the growth process represented in Figs 17(g ) and 18(g ). Fig. 19. Schlegel diagram of the (9,0)-( 5,5) knee after replacing the vacant bonds by hydrogen. All of the double bonds are localized according to the growth process represented in Figs 17(g ) and 18(g ).
Eutectic growth is a special mode of solidification for a two-component system. Operating near a specific point in the phase diagram, it shows some unique features [121,137]. [Pg.900]

O. Shochet, K. Kassner, E. Ben-Jacob, S. G. Lipson, H. Muller-Kmmbhaar. Morphology transitions during non-equilibrium growth II. Morphology diagram and characterization of the transition. Physica A 187 1, 1992. [Pg.915]

E. Brener, H. Muller-Krumbhaar, D. Temkin. Europhys Lett 17 535, 1992 Structure formation and the morphology diagram of possible structures in two-dimensional diffusional growth. Phys Rev E 54 2714, 1996. [Pg.920]

The deliberate growth of tin oxide or mixed oxide films in both acid and alkaline solutions has been reviewed recently . The effect of additions to alkaline solutions on their attack on tin has been considered as has the tendency for pitting corrosion to occur in solutions containing chloride ions" . In connection with this, potential pH diagrams for Sn-H O-Cl systems have been published . [Pg.809]

See other pages where Growth diagrams is mentioned: [Pg.359]    [Pg.32]    [Pg.359]    [Pg.32]    [Pg.543]    [Pg.478]    [Pg.433]    [Pg.367]    [Pg.332]    [Pg.218]    [Pg.449]    [Pg.49]    [Pg.52]    [Pg.359]    [Pg.1656]    [Pg.2218]    [Pg.398]    [Pg.252]    [Pg.269]    [Pg.17]    [Pg.87]    [Pg.5]    [Pg.97]    [Pg.101]    [Pg.101]    [Pg.389]    [Pg.156]    [Pg.81]    [Pg.511]    [Pg.762]    [Pg.298]    [Pg.303]    [Pg.1308]    [Pg.1281]   
See also in sourсe #XX -- [ Pg.230 ]



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