Follow
Marko K. Matikainen
Marko K. Matikainen
Verified email at lut.fi
Title
Cited by
Cited by
Year
A geometrically exact beam element based on the absolute nodal coordinate formulation
J Gerstmayr, MK Matikainen, AM Mikkola
Multibody System Dynamics 20, 359-384, 2008
1592008
Development of elastic forces for a large deformation plate element based on the absolute nodal coordinate formulation
AM Mikkola, MK Matikainen
752006
Comparison of the absolute nodal coordinate and geometrically exact formulations for beams
OA Bauchau, S Han, A Mikkola, MK Matikainen
Multibody System Dynamics 32, 67-85, 2014
662014
Higher-order beam elements based on the absolute nodal coordinate formulation for three-dimensional elasticity
H Ebel, MK Matikainen, VV Hurskainen, A Mikkola
Nonlinear Dynamics 88, 1075-1091, 2017
602017
A study of moderately thick quadrilateral plate elements based on the absolute nodal coordinate formulation
MK Matikainen, AI Valkeapää, AM Mikkola, AL Schwab
Multibody System Dynamics 31, 309-338, 2014
562014
Analysis of stress and strain in the absolute nodal coordinate formulation
J Gerstmayr, MK Matikainen
Mechanics based design of structures and machines 34 (4), 409-430, 2006
512006
Beam elements with trapezoidal cross section deformation modes based on the absolute nodal coordinate formulation
MK Matikainen, O Dmitrochenko, A Mikkola
AIP Conference Proceedings 1281 (1), 1266-1270, 2010
482010
Inertia forces and shape integrals in the floating frame of reference formulation
G Orzechowski, MK Matikainen, AM Mikkola
Nonlinear Dynamics 88, 1953-1968, 2017
362017
A fibre-reinforced poroviscoelastic model accurately describes the biomechanical behaviour of the rat Achilles tendon
H Khayyeri, A Gustafsson, A Heuijerjans, MK Matikainen, P Julkunen, ...
PloS one 10 (6), e0126869, 2015
332015
A finite element for soft tissue deformation based on the absolute nodal coordinate formulation
LP Obrezkov, MK Matikainen, AB Harish
Acta Mechanica 231, 1519-1538, 2020
322020
Dynamic analysis of rotating shafts using the absolute nodal coordinate formulation
B Bozorgmehri, VV Hurskainen, MK Matikainen, A Mikkola
Journal of Sound and Vibration 453, 214-236, 2019
282019
Experimental validation of flexible multibody dynamics beam formulations
OA Bauchau, S Han, A Mikkola, MK Matikainen, P Gruber
Multibody System Dynamics 34, 373-389, 2015
282015
Elimination of high frequencies in the absolute nodal coordinate formulation
MK Matikainen, R Von Hertzen, A Mikkola, J Gerstmayr
Proceedings of the Institution of Mechanical Engineers, Part K: Journal of …, 2010
252010
A study of contact methods in the application of large deformation dynamics in self-contact beam
B Bozorgmehri, X Yu, MK Matikainen, AB Harish, A Mikkola
Nonlinear Dynamics 103, 581-616, 2021
232021
Usability of finite elements based on the absolute nodal coordinate formulation for deformation analysis of the Achilles tendon
L Obrezkov, P Eliasson, AB Harish, MK Matikainen
International journal of non-linear mechanics 129, 103662, 2021
202021
Comparison of two moderately thick plate elements based on the absolute nodal coordinate formulation
MK Matikainen, AL Schwab, AM Mikkola
Multibody dynamics, 1-21, 2009
192009
Analysis of high-order quadrilateral plate elements based on the absolute nodal coordinate formulation for three-dimensional elasticity
H Ebel, MK Matikainen, VV Hurskainen, A Mikkola
Advances in Mechanical Engineering 9 (6), 1687814017705069, 2017
172017
Performance review of locking alleviation methods for continuum ANCF beam elements
LP Obrezkov, A Mikkola, MK Matikainen
Nonlinear Dynamics 109 (2), 531-546, 2022
162022
Estimating the characteristic curve of a directional control valve in a combined multibody and hydraulic system using an augmented discrete extended Kalman filter
Q Khadim, M Kiani-Oshtorjani, S Jaiswal, MK Matikainen, A Mikkola
Sensors 21 (15), 5029, 2021
162021
Inclusion of transverse shear deformation in a beam element based on the absolute nodal coordinate formulation
A Mikkola, O Dmitrochenko, M Matikainen
162009
The system can't perform the operation now. Try again later.
Articles 1–20