Josef Kiendl
Background and activities
Fields of interest
- Isogeometric analysis, Finite Element Methods
- Nonlinear structural mechanics
- Phase-field modeling of fracture
- Fluid-Structure-Interaction
- Shape optimization
- 3D and 4D printing
Courses:
TMR4190: Finite Element Methods in Structural Mechanics
TMR4500: Marine Structures, Specialization Project
Awards:
- Highly Cited Researcher 2017 (https://clarivate.com/hcr/)
- Richard-von-Mises Prize 2016 (https://www.gamm-ev.de/index.php/en/foundation-prize/mises-prize-laure.html)
Scientific, academic and artistic work
A selection of recent journal publications, artistic productions, books, including book and report excerpts. See all publications in the database
Journal publications
- (2020) Seamless integration of design and Kirchhoff–Love shell analysis using analysis-suitable unstructured T-splines. Computer Methods in Applied Mechanics and Engineering. vol. 360.
- (2020) Hierarchically refined isogeometric analysis of trimmed shells. Computational Mechanics. vol. 66 (2).
- (2020) Controlling toughness and strength of FDM 3D-printed PLA components through the raster layup. Composites Part B: Engineering. vol. 180.
- (2020) A framework for efficient isogeometric computations of phase-field brittle fracture in multipatch shell structures. Computer Methods in Applied Mechanics and Engineering. vol. 372.
- (2019) Kirchhoff–Love shells within strain gradient elasticity: Weak and strong formulations and an H3-conforming isogeometric implementation. Computer Methods in Applied Mechanics and Engineering. vol. 344.
- (2019) Penalty coupling of non-matching isogeometric Kirchhoff-Love shell patches with application to composite wind turbine blades. Computer Methods in Applied Mechanics and Engineering. vol. 346.
- (2019) A framework for isogeometric-analysis-based optimization of wind turbine blade structures. Wind Energy. vol. 22 (2).
- (2019) A simplified Kirchhoff–Love large deformation model for elastic shells and its effective isogeometric formulation. Computer Methods in Applied Mechanics and Engineering. vol. 354.
- (2019) Explicit isogeometric collocation for the dynamics of three-dimensional beams undergoing finite motions. Computer Methods in Applied Mechanics and Engineering. vol. 343.
- (2019) Isogeometric collocation for implicit dynamics of three-dimensional beams undergoing finite motions. Computer Methods in Applied Mechanics and Engineering. vol. 356.
- (2019) Variational formulations, model comparisons and numerical methods for Euler–Bernoulli micro- and nano-beam models. Mathematics and mechanics of solids. vol. 24 (1).
- (2018) Isogeometric Kirchhoff-Love shell formulation for elasto-plasticity. Computer Methods in Applied Mechanics and Engineering. vol. 340.
- (2018) An isogeometric analysis formulation for red blood cell electro-deformation modeling. Computer Methods in Applied Mechanics and Engineering. vol. 338.
- (2018) An anisotropic constitutive model for immersogeometric fluid-structure interaction analysis of bioprosthetic heart valves. Journal of Biomechanics. vol. 74.
- (2017) Arbitrary-Degree T-splines for Isogeometric Analysis of Fully Nonlinear Kirchhoff-Love Shells. Computer-Aided Design. vol. 82.
- (2017) A natural framework for isogeometric fluid-structure interaction based on BEM-shell coupling. Computer Methods in Applied Mechanics and Engineering. vol. 316.
- (2017) A displacement-free formulation for the Timoshenko beam problem and a corresponding isogeometric collocation approach. Meccanica (Milano. Print). vol. 53 (6).
- (2017) Isogeometric collocation for the Reissner–Mindlin shell problem. Computer Methods in Applied Mechanics and Engineering. vol. 325.
- (2017) Isogeometric analysis for sixth-order boundary value problems of gradient-elastic Kirchhoff plates. Computer Methods in Applied Mechanics and Engineering. vol. 316.
- (2017) An isogeometric collocation method for frictionless contact of Cosserat rods. Computer Methods in Applied Mechanics and Engineering. vol. 321.