diff --git a/cosserat-continuum-wong-pellegrino-wrinkling.parset b/cosserat-continuum-wong-pellegrino-wrinkling.parset index fba98912ec211bba521e40234d81850aca1127e2..6e911f027772be6ea357e1758f31f96a1d413d0c 100644 --- a/cosserat-continuum-wong-pellegrino-wrinkling.parset +++ b/cosserat-continuum-wong-pellegrino-wrinkling.parset @@ -1,6 +1,19 @@ +############################################# +# Grid parameters +############################################# + +structuredGrid = true +lower = 0 0 +upper = 0.38 0.128 +elements = 15 5 + # Number of grid levels numLevels = 1 +############################################# +# Solver parameters +############################################# + # Number of homotopy steps for the Dirichlet boundary conditions numHomotopySteps = 1 @@ -38,90 +51,27 @@ baseTolerance = 1e-8 instrumented = 0 ############################ -# Problem specifications +# Material parameters ############################ -# Parameters for the shearing/wrinkling example from Taylor, Bertoldi, Steigmann +# Parameters for the shearing/wrinkling example from Wong/Pellegrino 2006 # We use 'meters' as the length unit -#[materialParameters] - -# shell thickness -#thickness = 2.5e-5 - -# Lame parameters -# # corresponds to E = 3.5GPa, nu=0.31 -#mu = 5.6452e+09 -#lambda = 2.1796e+09 - -# Cosserat couple modulus -#mu_c = 0 - -# Length scale parameter -# h * sqrt(1/12) -#L_c = 7.2169e-06 - -# Curvature exponent -#q = 2 - -# Shear correction factor -#kappa = 1 - -[] - -#structuredGrid = true -#lower = 0 0 -#upper = 0.38 0.128 -#elements = 15 5 - - -## Parameters for the twisted 10x1 strip -#[materialParameters] - -# shell thickness -#thickness = 0.002 - -# Lame parameters -# # corresponds to E = 3.5GPa, nu=0.31 -#mu = 5.6452e+09 -#lambda = 2.1796e+09 - -# Cosserat couple modulus -mu_c = 0 - -# Length scale parameter -#L_c = 0.002 - -# Curvature exponent -#q = 2 - -# Shear correction factor -#kappa = 1 - -#[] - -#structuredGrid = true -#lower = 0 0 -#upper = 0.1 0.01 -#elements = 10 1 - -## For the Wriggers L-shape example [materialParameters] # shell thickness -thickness = 0.6 +thickness = 2.5e-5 # Lame parameters -# corresponds to E = 71240 N/mm^2, nu=0.31 -# However, we use units N/m^2 -mu = 2.7191e+10 -lambda = 4.4364e+10 +# corresponds to E = 3.5GPa, nu=0.31 +mu = 5.6452e+09 +lambda = 2.1796e+09 # Cosserat couple modulus mu_c = 0 # Length scale parameter -L_c = 0.6 +L_c = 2.5e-5 # Curvature exponent q = 2 @@ -131,12 +81,15 @@ kappa = 1 [] -### Neumann values, if needed -neumannValues = -1e3 0 0 +############################################# +# Boundary values +############################################# -structuredGrid = false -path = /home/sander/data/shells/wriggers_L_shape/ -gridFile = wriggers-L-shape_99.msh +### Python predicate specifying all Dirichlet grid vertices +# x is the vertex coordinate +dirichletVerticesPredicate = "x[1] < 0.0001 or x[1] > 0.128 - 0.0001" # Initial deformation -initialDeformation = "[x[0], x[1], 0.002*cos(1e4*x[0])]" +#initialDeformation = "[x[0], x[1], 0.002*cos(1e4*x[0])]" +# Series expansion of the cosine, because I haven't figured out how to use math stuff in dunepython yet +initialDeformation = "[x[0], x[1], 1e-15*(1- 0.5*(1e4*x[0])*(1e4*x[0]) + (1.0/24)*(1e4*x[0])*(1e4*x[0])*(1e2*x[0])*(1e4*x[0]))]"