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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
Unsupervised pattern recognition of acoustic emission signals of adhesively bonded wood
Clerc, G., Sause, M. G. R., Brunner, A. J., Niemz, P., & Van de Kuilen, J. W. G. (2019). Unsupervised pattern recognition of acoustic emission signals of adhesively bonded wood. In X. Wang, U. H. Sauter, & R. J. Ross (Eds.), General Technical Report: Vol. FPL–GTR–272. Proceedings. 21st international nondestructive testing and evaluation of wood symposium (pp. 619-626). U.S. Department of Agriculture, Forest Service, Forest Products Laboratory.
Strength of an electrolyte supported solid oxide fuel cell
Fleischhauer, F., Bermejo, R., Danzer, R., Mai, A., Graule, T., & Kuebler, J. (2015). Strength of an electrolyte supported solid oxide fuel cell. Journal of Power Sources, 297, 158-167. https://doi.org/10.1016/j.jpowsour.2015.07.075
Dispersion of fullerene-like WS<SUB>2</SUB> nanoparticles within epoxy and the resulting fracture mechanics
Haba, D., Brunner, A. J., & Pinter, G. (2015). Dispersion of fullerene-like WS2 nanoparticles within epoxy and the resulting fracture mechanics. Composites Science and Technology, 119(10), 55-61. https://doi.org/10.1016/j.compscitech.2015.09.013
Room temperature fatigue of ZrB<SUB>2</SUB>–SiC ceramic composites
Lugovy, M., Orlovskaya, N., Neubert, M., Aneziris, C. G., Graule, T., & Kuebler, J. (2013). Room temperature fatigue of ZrB2–SiC ceramic composites. Ceramics International, 39(8), 9187-9194. https://doi.org/10.1016/j.ceramint.2013.05.020
Post-hot isostatic pressing: a healing treatment for process related defects and laboratory grinding damage of dental zirconia?
Scherrer, S. S., Cattani-Lorente, M., Yoon, S., Karvonen, L., Pokrant, S., Rothbrust, F., & Kuebler, J. (2013). Post-hot isostatic pressing: a healing treatment for process related defects and laboratory grinding damage of dental zirconia? Dental Materials, 29(2), e180-e190. https://doi.org/10.1016/j.dental.2013.04.014
Failure analysis of zirconia ceramic watch bracelet components
Kuebler, J., & Blugan, G. (2011). Failure analysis of zirconia ceramic watch bracelet components. Engineering Failure Analysis, 18(2), 625-632. https://doi.org/10.1016/j.engfailanal.2010.09.028
Cyclic interlaminar crack growth in unidirectional and braided composites
Stelzer, S., Pinter, G., Wolfahrt, M., Brunner, A. J., & Noisternig, J. (2010). Cyclic interlaminar crack growth in unidirectional and braided composites. In W. Yao, J. Renard, & N. A. Himmel (Eds.), Fatigue behaviour of fiber reinforced polymers. Experiments and simulations (p. (17 pp.). DEStech Publications.
Analysis of a tragic accident on a summer toboggan run
Piskoty, G., Klotz, U. E., Kovacs, G., Weisse, B., Rütti, T. F., & Stutz, A. (2007). Analysis of a tragic accident on a summer toboggan run. Engineering Failure Analysis, 14(6), 1083-1092. https://doi.org/10.1016/j.engfailanal.2006.11.057
Application of the ESEM technique in wood research. Part II. Comparison of operational modes
Turkulin, H., Holzer, L., Richter, K., & Sell, J. (2005). Application of the ESEM technique in wood research. Part II. Comparison of operational modes. Wood and Fiber Science, 37(4), 565-573.
Application of the ESEM technique in wood research: part I. Optimization of imaging parameters and working conditions
Turkulin, H., Holzer, L., Richter, K., & Sell, J. (2005). Application of the ESEM technique in wood research: part I. Optimization of imaging parameters and working conditions. Wood and Fiber Science, 37(4), 552-564.
Fractography of advanced ceramics – the CEN pre-standard
Morrell, R., & Kübler, J. (2002). Fractography of advanced ceramics – the CEN pre-standard. Key Engineering Materials, 223, 19-26. https://doi.org/10.4028/www.scientific.net/KEM.223.19
Assessment of wood photodegradation by microtensile testing
Derbyshire, H., Miller, E. R., Sell, J., & Turkulin, H. (1995). Assessment of wood photodegradation by microtensile testing. Drvna Industrija, 46(3), 123-132.