List of works - Klaus Hackl

A condensed variational model for thermo-mechanically coupled phase transformations in polycrystalline shape memory alloys

A coupled dissipation functional for modeling the functional fatigue in polycrystalline shape memory alloys

article

A discontinuous phase field approach to variational growth-based topology optimization

A micromechanical model for the transformation induced plasticity in polycrystalline steels

article by Johanna Waimann et al published October 2015 in Proceedings in applied mathematics and mechanics

A regularization approach for damage models based on a displacement gradient

A relaxation-based approach to damage modeling

article published in 2016

A study on the principle of maximum dissipation for coupled and non-coupled non-isothermal processes in materials.

scientific article published on 9 March 2011

A thermo-mechanically coupled field model for shape memory alloys

article

A variational growth approach to topology optimization

A variational material model for transformation-induced plasticity in polycrystalline steels

article by Johanna Waimann et al published 1 January 2015 in Journal of the mechanical behavior of materials

A variational model for the functional fatigue in polycrystalline shape memory alloys

article

A variational viscosity-limit approach to the evolution of microstructures in finite crystal plasticity

article by Christina Günther et al published 5 August 2015 in Proceedings of the Royal Society A

An evolution equation based approach to topology optimization

An evolutionary topology optimization approach with variationally controlled growth

Application of the multiscale FEM to the modeling of cancellous bone

scientific article published on 01 July 2009

Calibration and Finite Element Implementation of an Energy-Based Material Model for Shape Memory Alloys

Comparison of thermodynamic topology optimization with SIMP

Compendium on the Principle of the Minimum of the Dissipation Potential for Non-Isothermal Processes

Finite element implementation and simulation of the functional fatigue in shape memory alloys

article

Finite element simulations of poly-crystalline shape memory alloys based on a micromechanical model

Functional Fatigue in polycrystalline Shape Memory Alloys

article

Gradient-enhanced continuum models of healing in damaged soft tissues

scientific article published on 29 April 2019

Investigation of the influence of reflection on the attenuation of cancellous bone

scientific article published on 7 April 2012

Linking mathematics with engineering applications at an early stage – implementation, experimental set-up and evaluation of a pilot project

Model-free data-driven simulation of inelastic materials using structured data sets, tangent space information and transition rules

scientific article published on 09 May 2022

Modeling and Simulation of Damage Processes based on a Gradient-Enhanced Free Energy Function

Modeling the COVID-19 pandemic - parameter identification and reliability of predictions

scientific article published on 11 April 2020

Modeling the Cyclic Behavior of Shape Memory Alloys

Modeling the evolution of microstructures in finite plasticity

article by Christina Günther et al published October 2015 in Proceedings in applied mathematics and mechanics

Modelling of shear localization in solids by means of energy relaxation

Numerical simulations of poly-crystalline shape-memory alloys based on a micromechanical model

On the interrelation between dissipation and chemical energies in modeling shape memory alloys

On the numerical simulation of material inhomogeneities due to martensitic phase transformations in poly-crystals

On the thermo-mechanically coupled simulation of poly-crystalline Shape Memory Alloys

Optimized growth and reorientation of anisotropic material based on evolution equations

Simulation of pseudo-plasticity in shape-memory-alloys

article by Philipp Junker & Klaus Hackl published December 2011 in Proceedings in applied mathematics and mechanics

The coupling of plasticity with a relaxation-based approach to damage modeling

article by Stephan Schwarz et al published December 2017 in Proceedings in applied mathematics and mechanics

The principle of the minimum of the dissipation potential for non-isothermal processes

Three-dimensional numerical simulation of soft-tissue wound healing using constrained-mixture anisotropic hyperelasticity and gradient-enhanced damage mechanics

scientific article published on 22 January 2020

List of works by Klaus Hackl

A condensed variational model for thermo-mechanically coupled phase transformations in polycrystalline shape memory alloys

A coupled dissipation functional for modeling the functional fatigue in polycrystalline shape memory alloys

A discontinuous phase field approach to variational growth-based topology optimization

A micromechanical model for the transformation induced plasticity in polycrystalline steels

A regularization approach for damage models based on a displacement gradient

A relaxation-based approach to damage modeling

A relaxation-based approach to damage modeling

A study on the principle of maximum dissipation for coupled and non-coupled non-isothermal processes in materials.

A thermo-mechanically coupled field model for shape memory alloys

A variational growth approach to topology optimization

A variational material model for transformation-induced plasticity in polycrystalline steels

A variational model for the functional fatigue in polycrystalline shape memory alloys

A variational viscosity-limit approach to the evolution of microstructures in finite crystal plasticity

An evolution equation based approach to topology optimization

An evolutionary topology optimization approach with variationally controlled growth

Application of the multiscale FEM to the modeling of cancellous bone

Calibration and Finite Element Implementation of an Energy-Based Material Model for Shape Memory Alloys

Comparison of thermodynamic topology optimization with SIMP

Compendium on the Principle of the Minimum of the Dissipation Potential for Non-Isothermal Processes

Finite element implementation and simulation of the functional fatigue in shape memory alloys

Finite element simulations of poly-crystalline shape memory alloys based on a micromechanical model

Functional Fatigue in polycrystalline Shape Memory Alloys

Gradient-enhanced continuum models of healing in damaged soft tissues

Investigation of the influence of reflection on the attenuation of cancellous bone

Linking mathematics with engineering applications at an early stage – implementation, experimental set-up and evaluation of a pilot project

Model-free data-driven simulation of inelastic materials using structured data sets, tangent space information and transition rules

Modeling and Simulation of Damage Processes based on a Gradient-Enhanced Free Energy Function

Modeling the COVID-19 pandemic - parameter identification and reliability of predictions

Modeling the Cyclic Behavior of Shape Memory Alloys

Modeling the evolution of microstructures in finite plasticity

Modelling of shear localization in solids by means of energy relaxation

Numerical simulations of poly-crystalline shape-memory alloys based on a micromechanical model

On the interrelation between dissipation and chemical energies in modeling shape memory alloys

On the numerical simulation of material inhomogeneities due to martensitic phase transformations in poly-crystals

On the thermo-mechanically coupled simulation of poly-crystalline Shape Memory Alloys

Optimized growth and reorientation of anisotropic material based on evolution equations

Simulation of pseudo-plasticity in shape-memory-alloys

The coupling of plasticity with a relaxation-based approach to damage modeling

The principle of the minimum of the dissipation potential for non-isothermal processes

Three-dimensional numerical simulation of soft-tissue wound healing using constrained-mixture anisotropic hyperelasticity and gradient-enhanced damage mechanics

Topology and material orientation optimization based on evolution equations

Variational modeling of shape memory alloys – an overview

Variational prediction of the mechanical behavior of shape memory alloys based on thermal experiments