An unconditionally stable second order accurate implicit-implicit staggered procedure for the finite element solution of fully coupled thermoelasticity transient problems is proposed. The procedure is stabilized with a semi-algebraic augmentation technique. A comparative cost analysis reveals the superiority of the proposed computational strategy to other conventional staggered procedures. Numerical examples of one and two-dimensional thermomechanical coupled problems demonstrate the accuracy of the proposed numerical solution algorithm
Developing computational frameworks for transient interaction-type problems (e.g. fluid–structure in...
An efficient time-stepping algorithm is proposed based on operator-splitting and the space–time disc...
A new class of algorithms for transient finite element analysis which is amenable to an efficient im...
AbstractThis paper introduces a fully implicit partitioned coupling scheme for problems of thermoela...
This study presents a new staggered coupled strategy to deal with thermomechanical problems. The pro...
The accurate numerical modelling of thermomechanical systems is important in several industrial appl...
The computational methods used to predict and optimize the thermal structural behavior of aerospace ...
Studies aimed at an increase in the efficiency of calculating transient temperature fields in comple...
The status of an effort to increase the efficiency of calculating transient temperature fields in co...
The thermomechanical finite element analysis of warm forming processes enables an improved comprehen...
The status of an effort to increase the efficiency of calculating transient temperature fields in co...
The computational methods used to predict and optimize the thermal-structural behavior of aerospace ...
Sources of thermo-mechanical coupling in visco-elastic materials are various: viscous dissipation, d...
Mixed time integration methods for transient thermal analysis of structures are studied. An efficien...
It is noted that the application of finite element or finite difference techniques to the solution o...
Developing computational frameworks for transient interaction-type problems (e.g. fluid–structure in...
An efficient time-stepping algorithm is proposed based on operator-splitting and the space–time disc...
A new class of algorithms for transient finite element analysis which is amenable to an efficient im...
AbstractThis paper introduces a fully implicit partitioned coupling scheme for problems of thermoela...
This study presents a new staggered coupled strategy to deal with thermomechanical problems. The pro...
The accurate numerical modelling of thermomechanical systems is important in several industrial appl...
The computational methods used to predict and optimize the thermal structural behavior of aerospace ...
Studies aimed at an increase in the efficiency of calculating transient temperature fields in comple...
The status of an effort to increase the efficiency of calculating transient temperature fields in co...
The thermomechanical finite element analysis of warm forming processes enables an improved comprehen...
The status of an effort to increase the efficiency of calculating transient temperature fields in co...
The computational methods used to predict and optimize the thermal-structural behavior of aerospace ...
Sources of thermo-mechanical coupling in visco-elastic materials are various: viscous dissipation, d...
Mixed time integration methods for transient thermal analysis of structures are studied. An efficien...
It is noted that the application of finite element or finite difference techniques to the solution o...
Developing computational frameworks for transient interaction-type problems (e.g. fluid–structure in...
An efficient time-stepping algorithm is proposed based on operator-splitting and the space–time disc...
A new class of algorithms for transient finite element analysis which is amenable to an efficient im...