DOI: 10.1007/bf03223260. Thermodynamic driving forces and anisotropic interface motion

Thermodynamic driving forces and anisotropic interface motion

10.1007/bf03223260

Crossref journal-article

Springer Science and Business Media LLC

JOM (297)

Bibliography

Taylor, J. E. (1996). Thermodynamic driving forces and anisotropic interface motion. JOM, 48(12), 19â22.

Authors 1

Jean E. Taylor (first)

References 20 Referenced 3

Jean E. Taylor, “Anisotropic Interface Motion,” Modern Methods for Modeling Microstructure Evolution in Material (TMS/SIAM, 1996). / Modern Methods for Modeling Microstructure Evolution in Material by J. E. Taylor (1996)
Jean E. Taylor, John W. Cahn, and Carol A. Handwerker, “Geometric Models of Crystal Growth,” Acta Metall. Mater., 40 (1992), pp. 1443–1474. / JOM by J. E. Taylor (1992)
John W. Cahn and Jean E. Taylor, “Surface Motion by Surface Diffusion,” Acta Metall. Mater., 42 (1994), pp. 1045–1063. / JOM by J. W. Cahn (1994)
John W. Cahn and Jean E. Taylor, “ThermodynamiC Driving Forces and Equilibrium in Multicomponent Systems with Anisotropic Surfaces,” Modern Methods for Modeling Microstructure Evolution in Materials (TMS/SIAM 1996, to appear). / Modern Methods for Modeling Microstructure Evolution in Materials by J. W. Cahn (1996)
M. Jeannette Kelly, “Edge Energy-Minimizing Surfaces and Crystal Shape,” Modern Methods for Modeling Microstructure Evolution in Material (TMS/SIAM, 1996). / Modern Methods for Modeling Microstructure Evolution in Material by M. J. Kelly (1996)
Francis Larch and John W. Cahn, ″The Interactions of Composition and Stress in Crystalline Solids, Acta Met., 33 (1985), pp. 331–367; reprinted in Francis Larch and John W. Cahn, “The Interactions of Composition and Stress in Crystalline Solids Journal of Research of NBS, 89 (1984), pp. 467–500. / JOM by F. Larch (1985)
W. Craig Carter et al., “Shape Evolution by Surface Diffusion and Surface Attachment Limited Kinetics on Completely Faceted Surfaces,” Acta Metal. Mater., 43 (1995), pp. 4309–4323. / JOM by W. C. Carter (1995)
Jean E. Taylor, “Mean Curvature and Weighted Mear. Curvature,” Acta Metall. Mater., 40 (1992), pp. 1475–1485. / JOM by J. E. Taylor (1992)
J. Willard Gibbs, The Collected Works of J.W. Gibbs, vol. 1 (New York: Longmans, Green and Co., 1928). / The Collected Works of J.W. Gibbs by J. W. Gibbs (1928)
Pedro Martins Girao, “Convergence of a Crystalline Algorithm for the Motion of a Simple Closed Convex Curve by Weighted Curvature,” SIAM J. Numer.Anal., 32 (3) (1995), pp. 886–899. / JOM by P. M. Girao (1995)
Jean E. Taylor, “Motion of Curves by Crystalline Curvature, Including Triple Junctions and Boundary Points,” Differential Geometry Proceedings of Symposia in Pure Math., 51 (part 1) (1993), pp. 417–438. / JOM by J. E. Taylor (1993)
Jean E. Taylor, “Motion by Crystalline Curvature, in Computing Optimal Geometries,” Selected Lectures in Milthematics, ed. J.E. Taylor (Providence, RI: American Mathematical Society, 1991), pp. 63–65 (plus video). / Selected Lectures in Milthematics by J. E. Taylor (1991)
S. Angenent and M. Gurtin, “Multiphase Thermomechanics with Interracial Structure. 2. Evolution of an Isothermal Interface,” Arch Rat. Mech. Anal, 108 (1989), pp. 323–391. / JOM by S. Angenent (1989)
Fred Almgren and Jean E. Taylor, “Flat Flow is Motion by Crystalline Curvature for Curves with Crystalline Energies,” J. Differential Geometry, 42 (1995), pp. 1–22. (10.1080/09500349514550011) / JOM by F. Almgren (1995)
Andrew Roosen, “Simulation of Two-Dimensional Facetted Crystal Growth in a Single Diffusion Field,” Computational Crystal Growers Workshop, Selected Lectures in Mathematics, ed. J.E. Taylor (Providence, RI: American Mathematical Society, 1992) (includes video). / Computational Crystal Growers Workshop, Selected Lectures in Mathematics by A. Roosen (1992)
Fred Almgren, Jean Taylor, and Lihe Wang, “Curvature Driven Flows: A Variational Approach, SIAM Journal of Control and Optimization, 31 (1993), pp. 386–437. / JOM by F. Almgren (1993)
Andrew R. Roosen and Jean E. Taylor, “Modeling Crystal Growth in a Diffusion Field Using Fully Faceted Interfaces,” J. Computational Physics, 114 (1994), pp. 113–128. / JOM by A. R. Roosen (1994)
Jean E. Taylor, “Geometric Crystal Growth in 3D via Faceted Interfaces,” Computational Crystal Growers Workshop, Selected Lectures in Mathematics, ed. J.E. Taylor (Providence, RI: American Mathematical Society, 1992), pp. 111–113 (plus video 20:25-26:00). / Computational Crystal Growers Workshop, Selected Lectures in Mathematics by J. E. Taylor (1992)
David Caraballo, Princeton University Mathematics Department thesis (1996). / Princeton University Mathematics Department thesis by D. Caraballo (1996)
Nung-Kwan Yip, Princeton University Mathematics Department thesis (1996). / Princeton University Mathematics Department thesis by N.-K. Yip (1996)

Dates

Type	When
Created	13 years, 6 months ago (Jan. 24, 2012, 5:40 p.m.)
Deposited	6 years, 3 months ago (May 21, 2019, 8:37 p.m.)
Indexed	3 years, 4 months ago (March 31, 2022, 8:14 a.m.)
Issued	28 years, 8 months ago (Dec. 1, 1996)
Published	28 years, 8 months ago (Dec. 1, 1996)
Published Print	28 years, 8 months ago (Dec. 1, 1996)

Funders 0

None

BibTeX

@article{Taylor_1996, title={Thermodynamic driving forces and anisotropic interface motion}, volume={48}, ISSN={1543-1851}, url={http://dx.doi.org/10.1007/bf03223260}, DOI={10.1007/bf03223260}, number={12}, journal={JOM}, publisher={Springer Science and Business Media LLC}, author={Taylor, Jean E.}, year={1996}, month=dec, pages={19–22} }

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