Code covered by the BSD License
Highlights from
WTS (formerly Leonov) + GUI
- WTS_GUI(varargin) End initialization code - DO NOT EDIT
- A=A(A0,H0,T)
- [T33,truestrain,J,S33,R33]=WT... This function determines the total true axial stress in a glassy polymer in uniaxial deformation according to the WTS model
- d=dev(a) This function determines the deviatoric part of a
- d=symm(l) Calculates the symmetric part of l
- dp=dplas(sig,tau0,A0,H0,T) Calculates the plastic strain rate as a function of the stress tensor sig
- dy=evolution(time,y,strainrat...
- f=B(epsilon,poisson); isochoric part of the chauchy green tensor
- f=F(epsilon,poisson); deformation gradient tensor F
- f=Vact(a,b,truestrain) In this model, the activation volume is a function of invariants of the strain tensor. A Poisson's ratio of 0.5 is assumed.
- s=sigma(J,Be,K,G) Calculates the Cauchy stress tensor
- t=taueq(sigma) This function calculates the equivalent stress
- w=asym(l) Calculates the anti-symmetric part of l
- example.m
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from
WTS (formerly Leonov) + GUI
by Michael Wendlandt
Calculates stress vs. strain curves of plastically deformed glassy polymers. GUI available. |
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