Spring Lectures N. 17: Mathematical approaches to the study of non-linear materials (1994).

Principal Lecturer: David Kinderlehrer (Carnegie Mellon University)

Contributions by:

R. Hardt, "singularities for p-energy minimizing unit vector fields"

N. Walkington, "Computational modelling for non-linear materials"

B. Yan, "W^{1,p} compactness and strong convergence related to a set of matrices"

I. Fonseca, "Relaxation and minimization problems in material sciences"

P. Kloucek, "Dynamics o the martenstic transformation"

M. Hilgers, "Energy moinimizing deformations of elastic sheets with bending stiffness"

Z. Wu, "Comensated compactness, paracomutators and Hardy spaces"

W> Chen, "A note on the Kazdan-Warner type"

G. Auchmuty, "Potentials and Duality in linear and nonlinear field theory"

W. Roundell, "A reconstruction algorithm for a problem in inverse obstacle scattering"

M. shillor, "Homogeneization of an elastic material with soft inclusions in frictionless contact"

N. Alikakos, "Motion of bubbles and drops for the Cahn Hilliard equation"

L. Ma, The computation of magnetic materials"

S. Demoulin, "oung measure solutions for some nonlienar evolution problems"

B. Lowe, "Coefficient recovering in a parablic equation from input sources"

P. Marcellini, Regularity in the Calculus of Variations"

G. Bao, "Mathematical issues in the grating theory of nonlinear optics"

T. Little, "Semilinear parabolic equations with preisach hysteresis"