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The effect of nano- and micron-scale filler modified epoxy matrix on glass-fiber reinforced polymer insulator component behavior
Burda, I., Barbezat, M., & Brunner, A. J. (2021). The effect of nano- and micron-scale filler modified epoxy matrix on glass-fiber reinforced polymer insulator component behavior. Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications. https://doi.org/10.1177/14644207211000775
Kopfbolzenverankerungen in mit CFK‐Bewehrung vorgespannten dünnwandigen Hochleistungsbetonfertigteilen
Ebschner, P., Kautzsch, R., Lämmlein, T., Holschemacher, K., & Terrasi, G. (2021). Kopfbolzenverankerungen in mit CFK‐Bewehrung vorgespannten dünnwandigen Hochleistungsbetonfertigteilen. Beton- und Stahlbetonbau, 116. https://doi.org/10.1002/best.202000104
Piezoresistive sensor fiber composites based on silicone elastomers for the monitoring of the position of a robot arm
Georgopoulou, A., Michel, S., Vanderborght, B., & Clemens, F. (2021). Piezoresistive sensor fiber composites based on silicone elastomers for the monitoring of the position of a robot arm. Sensors and Actuators A: Physical, 318, 112433 (11 pp.). https://doi.org/10.1016/j.sna.2020.112433
Sensorized robotic skin based on piezoresistive sensor fiber composites produced with injection molding of liquid silicone
Georgopoulou, A., Michel, S., & Clemens, F. (2021). Sensorized robotic skin based on piezoresistive sensor fiber composites produced with injection molding of liquid silicone. Polymers, 13(8), 1226 (16 pp.). https://doi.org/10.3390/polym13081226
Quantification approaches for fatigue crack resistance of thermoplastic tape layered composites with multiple delaminations
Khudiakova, A., Brunner, A. J., Wolfahrt, M., & Pinter, G. (2021). Quantification approaches for fatigue crack resistance of thermoplastic tape layered composites with multiple delaminations. Materials, 14(6), 1476 (24 pp.). https://doi.org/10.3390/ma14061476
An investigation on the fatigue performance of cracked steel plates reinforced with FRP and stop hole
Liu, Z., Li, Z., Huang, C., & Jiang, X. (2021). An investigation on the fatigue performance of cracked steel plates reinforced with FRP and stop hole. Mechanics of Advanced Materials and Structures. https://doi.org/10.1080/15376494.2021.1907005
Prestressing low clinker structural concrete elements by ultra-high modulus carbon fibre reinforced polymer tendons
Lämmlein, T. D., Justs, J., Terrasi, G. P., & Lura, P. (2021). Prestressing low clinker structural concrete elements by ultra-high modulus carbon fibre reinforced polymer tendons. Materials and Structures, 54, 51 (18 pp.). https://doi.org/10.1617/s11527-021-01634-9
Quasi-static and fatigue performance of bonded acetylated rubberwood (<em>Hevea brasiliensis</em>, Müll. Arg.)
Olaniran, S. O., Clerc, G., Cabane, E., Brunner, A. J., & Rüggeberg, M. (2021). Quasi-static and fatigue performance of bonded acetylated rubberwood (Hevea brasiliensis, Müll. Arg.). European Journal of Wood and Wood Products, 79, 49-58. https://doi.org/10.1007/s00107-020-01610-0
Muscle-driven and torque-driven centrodes during modeled flexion of individual lumbar spines are disparate
Rockenfeller, R., Müller, A., Damm, N., Kosterhon, M., Kantelhardt, S. R., Frank, R., & Gruber, K. (2021). Muscle-driven and torque-driven centrodes during modeled flexion of individual lumbar spines are disparate. Biomechanics and Modeling in Mechanobiology, 20, 267-279. https://doi.org/10.1007/s10237-020-01382-9
Influence of temperature on the mechanical performance of unidirectional carbon fiber reinforced polymer straps
Stankovic, D., Bisby, L. A., & Terrasi, G. P. (2021). Influence of temperature on the mechanical performance of unidirectional carbon fiber reinforced polymer straps. Materials, 14(8), 1903 (27 pp.). https://doi.org/10.3390/ma14081903
Structure-function assessment of 3D-printed porous scaffolds by a low-cost/open source fused filament fabrication printer
Vallejos Baier, R., Contreras Raggio, J. I., Toro Arancibia, C., Bustamante, M., Pérez, L., Burda, I., … Vivanco, J. F. (2021). Structure-function assessment of 3D-printed porous scaffolds by a low-cost/open source fused filament fabrication printer. Materials Science and Engineering C: Biomimetic Materials, Sensors and Systems, 123, 111945 (14 pp.). https://doi.org/10.1016/j.msec.2021.111945
Ductile compressive behavior of biomedical alloys
Affolter, C., Thorwarth, G., Arabi-Hashemi, A., Müller, U., & Weisse, B. (2020). Ductile compressive behavior of biomedical alloys. Metals, 10(1), 60 (11 pp.). https://doi.org/10.3390/met10010060
Estimating lumbar passive stiffness behaviour from subject-specific finite element models and in vivo 6DOF kinematics
Affolter, C., Kedzierska, J., Vielma, T., Weisse, B., & Aiyangar, A. (2020). Estimating lumbar passive stiffness behaviour from subject-specific finite element models and in vivo 6DOF kinematics. Journal of Biomechanics, 102, 109681 (11 pp.). https://doi.org/10.1016/j.jbiomech.2020.109681
Fiber push-in failure in carbon fiber epoxy composites
Brunner, A. J., Schwiedrzik, J. J., Mohanty, G., & Michler, J. (2020). Fiber push-in failure in carbon fiber epoxy composites. In F. Iacoviello, A. Sedmak, L. Marsavina, B. Blackman, G. A. Ferro, V. Shlyannikov, … L. Banks-Sills (Eds.), Procedia structural integrity: Vol. 28. 1st virtual European conference on fracture - VECF1 (pp. 538-545). https://doi.org/10.1016/j.prostr.2020.10.063
Fracture mechanics characterization of polymer composites for aerospace applications
Brunner, A. J. (2020). Fracture mechanics characterization of polymer composites for aerospace applications. In P. Irving & C. Soutis (Eds.), Woodhead publishing series in composites science and engineering. Polymer composites in the aerospace industry (pp. 195-252). Elsevier.
Fracture mechanics test standards for fiber-reinforced polymer composites: suggestions for adapting them to Industry 4.0 and the digital age
Brunner, A. J. (2020). Fracture mechanics test standards for fiber-reinforced polymer composites: suggestions for adapting them to Industry 4.0 and the digital age. In F. Iacoviello, A. Sedmak, L. Marsavina, B. Blackman, G. A. Ferro, V. Shlyannikov, … L. Banks-Sills (Eds.), Procedia structural integrity: Vol. 28. 1st virtual European conference on fracture - VECF1 (pp. 546-554). https://doi.org/10.1016/j.prostr.2020.10.064
Delamination resistance of GFRP‐epoxy rods with nanoparticle‐ and microparticle‐modified matrix and its correlation with the fracture properties of epoxy nanocomposites
Burda, I., Barbezat, M., & Brunner, A. J. (2020). Delamination resistance of GFRP‐epoxy rods with nanoparticle‐ and microparticle‐modified matrix and its correlation with the fracture properties of epoxy nanocomposites. Fatigue and Fracture of Engineering Materials and Structures, 43, 292-307. https://doi.org/10.1111/ffe.13122
Sensitivity of musculoskeletal model-based lumbar spinal loading estimates to type of kinematic input and passive stiffness properties
Byrne, R. M., Aiyangar, A. K., & Zhang, X. (2020). Sensitivity of musculoskeletal model-based lumbar spinal loading estimates to type of kinematic input and passive stiffness properties. Journal of Biomechanics, 102, 109659 (11 pp.). https://doi.org/10.1016/j.jbiomech.2020.109659
Application of fracture mechanics to engineering design of complex structures
Clerc, G., Brunner, A. J., Niemz, P., & van de Kuilen, J. W. (2020). Application of fracture mechanics to engineering design of complex structures. In F. Iacoviello, A. Sedmak, L. Marsavina, B. Blackman, G. A. Ferro, V. Shlyannikov, … L. Banks-Sills (Eds.), Procedia structural integrity: Vol. 28. 1st virtual European conference on fracture - VECF1 (pp. 1761-1767). https://doi.org/10.1016/j.prostr.2020.10.152
Feasibility study on Hartman–Schijve data analysis for mode II fatigue fracture of adhesively bonded wood joints
Clerc, G., Brunner, A. J., Niemz, P., & Van de Kuilen, J. W. G. (2020). Feasibility study on Hartman–Schijve data analysis for mode II fatigue fracture of adhesively bonded wood joints. International Journal of Fracture, 221, 123-140. https://doi.org/10.1007/s10704-019-00414-5
 

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