dr.ir. M. Nijenhuis (Marijn)

Engineering & Materials Science

# Actuators
# Degrees Of Freedom (Mechanics)
# Hinges
# Iron
# Stiffness
# Torque Motors
# Torsional Stress

Physics & Astronomy

# Flexing

Faculty of Engineering Technology (ET), Precision Engineering (PE)

Dwarshuis, K. , Nijenhuis, M. , Aarts, R. G. K. M. , Ellenbroek, M. H. M. , & Brouwer, D. M. (2021). Computation of internal stress resultants in beam elements with constrained torsional warping. In J. Kövecses, G. Stépán, & A. Zelei (Eds.), Proceedings of the10th ECCOMAS Thematic Conference on MULTIBODY DYNAMICS (pp. 68-79). Budapest University of Technology and Economics.

Naves, M. , Nijenhuis, M. , Seinhorst, B. , Hakvoort, W. , & Brouwer, D. M. (2021). T-Flex: A fully flexure-based large range of motion precision hexapod. Precision engineering, 72, 912-928. https://doi.org/10.1016/j.precisioneng.2021.08.015

Tajdari, F. , Berkhoff, A. P. , Naves, M. , Nijenhuis, M. , & de Boer, A. (2020). A low-profile flexural displacement-converter mechanism for piezoelectric stack actuators. Sensors and actuators. A: Physical, 313, [112198]. https://doi.org/10.1016/j.sna.2020.112198

Klein Avink, S. T. B. , Nijenhuis, M. , Dierkes, W. K. , Noordermeer, J. W. M. , & Brouwer, D. M. (2020). Design of a flexure mechanism with increased dynamic performance: Viscoelastic (over)constraining. Mikroniek, 60(2), 28-32. https://www.dspe.nl/mikroniek/archive/

Nijenhuis, M. , Naves, M. , Hakvoort, W. B. J. , & Brouwer, D. M. (2020). Efficient modeling for the design of a large-stroke fully flexure-based 6-DOF hexapod. 47-51. Paper presented at 35th Annual Meeting of the American Society for Precision Engineering, ASPE 2020, Virtual, Online.

Naves, M. , Hakvoort, W. B. J. , Nijenhuis, M. , & Brouwer, D. M. (2020). T-Flex: A large range of motion fully flexure-based 6-DOF hexapod. In R. K. Leach, D. Billington, C. Nisbet, & D. Phillips (Eds.), Proceedings of the 20th International Conference of the European Society for Precision Engineering and Nanotechnology, EUSPEN 2020 (pp. 205-208). EUSPEN. https://www.euspen.eu/knowledge-base/ICE20183.pdf

Nijenhuis, M. , Meijaard, J. P. , & Brouwer, D. M. (2020). A spatial closed-form nonlinear stiffness model for sheet flexures based on a mixed variational principle including third-order effects. Precision engineering, 66, 429-444. https://doi.org/10.1016/j.precisioneng.2020.08.003

Nijenhuis, M., Klein Avink, S. T. B. , Dierkes, W. K. , Noordermeer, J. W. M. , & Brouwer, D. M. (2020). Improved dynamic performance in flexure mechanisms by overconstraining using viscoelastic material. Precision engineering, 63, 115-125. https://doi.org/10.1016/j.precisioneng.2020.02.002

Naves, M. , Nijenhuis, M. , Hakvoort, W. B. J. , & Brouwer, D. M. (2020). Flexure-based 60 degrees stroke actuator suspension for a high torque iron core motor. Precision engineering, 63, 105-114. https://doi.org/10.1016/j.precisioneng.2020.02.001

Nijenhuis, M. (2020). Spatial flexure mechanism analysis: Energy-based geometric stiffness modeling. University of Twente. https://doi.org/10.3990/1.9789036549448

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+31534895642

m.nijenhuis@utwente.nl

Visiting Address

University of Twente
Faculty of Engineering Technology
Horst Complex (building no. 20), room T601
De Horst 2
7522LW Enschede
The Netherlands

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Mailing Address

University of Twente
Faculty of Engineering Technology
Horst Complex T601
P.O. Box 217
7500 AE Enschede
The Netherlands

Faculty of Engineering Technology (ET), Precision Engineering (PE)

University of Twente Drienerlolaan 5
7522 NB Enschede

+31 (0)53 489 9111
info@utwente.nl
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