Experimental investigation of multi-material aluminum-tosteel and glass fiber reinforced polymer-to-steel bonded and boltedbonded connections. Tajeuna, T. A. D., Legeron, F., Langlois, S., Labossiere, P., & Demers, M. Canadian Journal of Civil Engineering, 43(7):657 - 666, 2016. Adhesive interfaces;Connection;Experimental investigations;Glass fiber reinforced polymer;Methacrylate adhesives;Multi materials;Pultruded GFRP;Single laps;
Experimental investigation of multi-material aluminum-tosteel and glass fiber reinforced polymer-to-steel bonded and boltedbonded connections [link]Paper  abstract   bibtex   
Through an experimental study, this paper describes the behavior of single-lap bonded and bolted–bonded connections for configurations with minimum geometric parameters proposed in design references. Two types of multi-material connections are considered: glass fiber reinforced polymer (GFRP)–steel and aluminum–steel. At first, the behavior of bonded connections using methacrylate and epoxy adhesives is evaluated. Then, the contribution of adhesive in bolted connections is investigated. Test results show that on bonded joints, failures mostly occur at the substrate to adhesive interface. Sanding the GFRP plate was found to improve the connection strength. Despite their lower elastic modulus, methacrylate adhesives with larger capacity to undergo plastic deformation provide better strength than other methacrylate and epoxy adhesives. For bolted–bonded joints, the adhesive was found to improve the elastic behavior and the strength of GFRP–steel joints while its effect for aluminum–steel joints was not apparent due to reduced bonded surface and the high strength performance of the bolted plates.
© 2016, Canadian Science Publishing. All rights reserved.
@article{20162902623456 ,
language = {English},
copyright = {Compilation and indexing terms, Copyright 2023 Elsevier Inc.},
copyright = {Compendex},
title = {Experimental investigation of multi-material aluminum-tosteel and glass fiber reinforced polymer-to-steel bonded and boltedbonded connections},
journal = {Canadian Journal of Civil Engineering},
author = {Tajeuna, Therese A. D. and Legeron, Frederic and Langlois, Sebastien and Labossiere, Pierre and Demers, Marc},
volume = {43},
number = {7},
year = {2016},
pages = {657 - 666},
issn = {03151468},
abstract = {Through an experimental study, this paper describes the behavior of single-lap bonded and bolted&ndash;bonded connections for configurations with minimum geometric parameters proposed in design references. Two types of multi-material connections are considered: glass fiber reinforced polymer (GFRP)&ndash;steel and aluminum&ndash;steel. At first, the behavior of bonded connections using methacrylate and epoxy adhesives is evaluated. Then, the contribution of adhesive in bolted connections is investigated. Test results show that on bonded joints, failures mostly occur at the substrate to adhesive interface. Sanding the GFRP plate was found to improve the connection strength. Despite their lower elastic modulus, methacrylate adhesives with larger capacity to undergo plastic deformation provide better strength than other methacrylate and epoxy adhesives. For bolted&ndash;bonded joints, the adhesive was found to improve the elastic behavior and the strength of GFRP&ndash;steel joints while its effect for aluminum&ndash;steel joints was not apparent due to reduced bonded surface and the high strength performance of the bolted plates.<br/> &copy; 2016, Canadian Science Publishing. All rights reserved.},
key = {Bolts},
keywords = {Aluminum;Glass fibers;Adhesives;Interfaces (materials);Fiber reinforced plastics;Steel fibers;Adhesive joints;},
note = {Adhesive interfaces;Connection;Experimental investigations;Glass fiber reinforced polymer;Methacrylate adhesives;Multi materials;Pultruded GFRP;Single laps;},
URL = {http://dx.doi.org/10.1139/cjce-2015-0285},
}
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