K.G. Balassas scite author profile

A computational scheme for the determination of the interface in a strain-induced phase-transition problem for an elastic bar is proposed. The algorithm is based on the material force notion and more specifically on the simultaneous solution of equilibrium equations for the physical and material forces. The weak form of both equations is derived with the aid of a variational principle that accounts for the variations of the dependent and the independent variables. The whole scheme concludes in a nonlinear algebraic system which is numerically solved by the Newton method. The numerical results thus derived seem to be quite encouraging for further application of the concept of material forces in computations related to phase transition problems. The austenite-martensite transformation could be a possible application of the proposed model.

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The equilibrium of material forces in a 1D phase transition problem

Balassas

Kalpakides

2007

Computer Methods in Applied Mechanics and Engineering

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On the use of material forces in the finite element method

Balassas¹,

Kalpakides²,

Stavroulakis³

2004

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K.G. Balassas

Symmetry groups and similarity solutions for a free convective boundary-layer problem

The inverse deformation mapping in the finite element method

Material forces and phase transitions in elasticity

The equilibrium of material forces in a 1D phase transition problem

On the use of material forces in the finite element method

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