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)

Nijenhuis, M. , Naves, M. , & Brouwer, D. (2022). High torsion stiffness leafspring flexure element using distributed warping constraints. In R. K. Leach, A. Akrofi-Ayesu, C. Nisbet, & D. Phillips (Eds.), European Society for Precision Engineering and Nanotechnology, Conference Proceedings - 22nd International Conference and Exhibition, EUSPEN 2022 (pp. 119-122). EUSPEN.

de Jong, J. J. , Nijenhuis, M. , & Brouwer, D. M. (2022). A massively overconstrained and statically balanced flexure mechanism for a 20 kN load capacity. In Proceedings - ASPE 2022 Annual Meeting (pp. 98-101). American Society for Precision Engineering.

Seinhorst, B. , Nijenhuis, M. , & Hakvoort, W. B. J. (2022). Feasibility of Active Material Vibration Suppression in a Large Stroke Flexure Hinge. IFAC-papersonline, 55(27), 166-171. https://doi.org/10.1016/j.ifacol.2022.10.506

Seinhorst, B. , Nijenhuis, M. , & Hakvoort, W. (2022). Design of a large deflection compliant mechanism with active material for vibration suppression. In R. K. Leach, A. Akrofi-Ayesu, C. Nisbet, & D. Phillips (Eds.), European Society for Precision Engineering and Nanotechnology, Conference Proceedings - 22nd International Conference and Exhibition, EUSPEN 2022 (pp. 123-126). EUSPEN. https://www.euspen.eu/knowledge-base/ICE22257.pdf

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

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