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\n\n \n \n \n \n \n \n Additional Data For \"In-Situ Full Field Out Of Plane Displacement And Strain Measurements At The Micro-Scale In Single Reinforcement Composites Under Transverse Load\".\n \n \n \n \n\n\n \n Tabiai, I.; Texier, D.; Bocher, P.; Therriault, D.; and Lévesque, M.\n\n\n \n\n\n\n October 2018.\n
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\n\n \n \n Paper\n \n \n\n \n \n doi\n \n \n\n \n link\n \n \n\n bibtex\n \n\n \n \n \n abstract \n \n\n \n\n \n \n \n \n \n \n \n\n \n \n \n \n \n \n \n \n \n \n \n\n\n\n
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@misc{tabiai_additional_2018,\n\ttitle = {Additional {Data} {For} "{In}-{Situ} {Full} {Field} {Out} {Of} {Plane} {Displacement} {And} {Strain} {Measurements} {At} {The} {Micro}-{Scale} {In} {Single} {Reinforcement} {Composites} {Under} {Transverse} {Load}"},\n\tcopyright = {Creative Commons Attribution 4.0, Open Access},\n\turl = {https://zenodo.org/record/1464268},\n\tdoi = {10.5281/ZENODO.1464268},\n\tabstract = {The following document is an extension of the {\\textless}em{\\textgreater}In-situ full field out of plane displacement and strain measurements at the micro-scale in single reinforcement composites under transverse load{\\textless}/em{\\textgreater} publication. It contains guidelines for the experimental results for the single fiber experiments and bundle of carbon fiber ones. The detailed data from the experiments is provided with this document as {\\textless}em{\\textgreater}CSV {\\textless}/em{\\textgreater}files.},\n\tlanguage = {en},\n\turldate = {2021-08-16},\n\tpublisher = {Zenodo},\n\tauthor = {Tabiai, Ilyass and Texier, Damien and Bocher, Philippe and Therriault, Daniel and Lévesque, Marin},\n\tmonth = oct,\n\tyear = {2018},\n\tkeywords = {digital image correlation, interfacial debonding, laser scanning confocal microscopy, single fiber composite},\n}\n\n
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\n The following document is an extension of the \\textlessem\\textgreaterIn-situ full field out of plane displacement and strain measurements at the micro-scale in single reinforcement composites under transverse load\\textless/em\\textgreater publication. It contains guidelines for the experimental results for the single fiber experiments and bundle of carbon fiber ones. The detailed data from the experiments is provided with this document as \\textlessem\\textgreaterCSV \\textless/em\\textgreaterfiles.\n
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\n\n \n \n \n \n \n \n Additional Data For The \"In-Situ Full Field Measurement During Inter-Facial Debonding In Single Fiber Composite Under Transverse Load\".\n \n \n \n \n\n\n \n Tabiai, I.; Delorme, R.; Therriault, D.; and Lévesque, M.\n\n\n \n\n\n\n February 2018.\n
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\n\n \n \n Paper\n \n \n\n \n \n doi\n \n \n\n \n link\n \n \n\n bibtex\n \n\n \n \n \n abstract \n \n\n \n\n \n \n \n \n \n \n \n\n \n \n \n \n \n \n \n \n \n \n \n\n\n\n
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@misc{tabiai_additional_2018-1,\n\ttitle = {Additional {Data} {For} {The} "{In}-{Situ} {Full} {Field} {Measurement} {During} {Inter}-{Facial} {Debonding} {In} {Single} {Fiber} {Composite} {Under} {Transverse} {Load}"},\n\tcopyright = {Creative Commons Attribution 4.0, Open Access},\n\turl = {https://zenodo.org/record/1188272},\n\tdoi = {10.5281/ZENODO.1188272},\n\tabstract = {The following document is an extension of the {\\textless}em{\\textgreater}In-situ full field measurement during inter-facial debonding in single fiber composite under transverse load{\\textless}/em{\\textgreater} publication. It contains guidelines for the experimental results for the single fiber experiment of epoxy matrix and PTFE fiber, epoxy matrix and galvanized steel matrix, modified epoxy matrix and PTFE fiber and modified epoxy matrix and galvanized steel matrix. The detailed data from the experiments is provided with this document as {\\textless}em{\\textgreater}CSV {\\textless}/em{\\textgreater}files.},\n\tlanguage = {en},\n\turldate = {2021-08-16},\n\tpublisher = {Zenodo},\n\tauthor = {Tabiai, Ilyass and Delorme, Rolland and Therriault, Daniel and Lévesque, Martin},\n\tmonth = feb,\n\tyear = {2018},\n\tkeywords = {fiber reinforced composites, interface fracture, single fiber composite, stereoscopic digital image correlation},\n}\n\n
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\n The following document is an extension of the \\textlessem\\textgreaterIn-situ full field measurement during inter-facial debonding in single fiber composite under transverse load\\textless/em\\textgreater publication. It contains guidelines for the experimental results for the single fiber experiment of epoxy matrix and PTFE fiber, epoxy matrix and galvanized steel matrix, modified epoxy matrix and PTFE fiber and modified epoxy matrix and galvanized steel matrix. The detailed data from the experiments is provided with this document as \\textlessem\\textgreaterCSV \\textless/em\\textgreaterfiles.\n
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\n\n \n \n \n \n \n \n In-situ Full Field Measurements During Inter-Facial Debonding in Single Fiber Composite Under Transverse Load.\n \n \n \n \n\n\n \n Tabiai, I.; Delorme, R.; Therriault, D.; and Levesque, M.\n\n\n \n\n\n\n
Experimental Mechanics, 58(9): 1451–1467. November 2018.\n
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\n\n \n \n Paper\n \n \n\n \n \n doi\n \n \n\n \n link\n \n \n\n bibtex\n \n\n \n \n \n abstract \n \n\n \n\n \n \n \n \n \n \n \n\n \n \n \n\n\n\n
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@article{tabiai_-situ_2018,\n\ttitle = {In-situ {Full} {Field} {Measurements} {During} {Inter}-{Facial} {Debonding} in {Single} {Fiber} {Composite} {Under} {Transverse} {Load}},\n\tvolume = {58},\n\tissn = {1741-2765},\n\turl = {https://doi.org/10.1007/s11340-018-0429-9},\n\tdoi = {10.1007/s11340-018-0429-9},\n\tabstract = {The fibre/matrix interfacial damage mechanisms of fiber-reinforced composites (FRCs) are investigated for single-fiber composites under transverse load. A stereo microscope setup is used for 3D digital image correlation during in-situ quasi-static tests of single-fiber standard dog-bone specimens. Macro-fibers (0.9 mm diameter) with radically different interfacial bonding with the epoxy matrix are used. Damage appears to initiate with fiber debonding at the free surface along the tensile direction. The crack then propagates around the interface while slightly growing along the fiber until a lateral crack initiates on the debonded free surface, provoking specimen failure. The final failure mechanisms appears to be different for strong and weak fiber/matrix bonding. 3D DIC is used to provide precise measurements of displacements, strains, and out-of-plane displacement during the whole test. Quantitative differences in the displacement fields are measured in the cases of strong and weak bonding between the fiber and matrix. 3D DIC with macro-fibers is shown to be a promising technique to provide a better understanding of the damage mechanisms in a single-fiber composite and to determine interfacial toughness of a specific fibre/matrix couple in order to perform accurate modeling of damage in FRCs. Displacement, strain, and confidence field results for each pixel from each experiment and at each time step are also provided for detailed comparison with simulation results.},\n\tlanguage = {en},\n\tnumber = {9},\n\turldate = {2020-11-02},\n\tjournal = {Experimental Mechanics},\n\tauthor = {Tabiai, I. and Delorme, R. and Therriault, D. and Levesque, M.},\n\tmonth = nov,\n\tyear = {2018},\n\tpages = {1451--1467},\n}\n\n
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\n The fibre/matrix interfacial damage mechanisms of fiber-reinforced composites (FRCs) are investigated for single-fiber composites under transverse load. A stereo microscope setup is used for 3D digital image correlation during in-situ quasi-static tests of single-fiber standard dog-bone specimens. Macro-fibers (0.9 mm diameter) with radically different interfacial bonding with the epoxy matrix are used. Damage appears to initiate with fiber debonding at the free surface along the tensile direction. The crack then propagates around the interface while slightly growing along the fiber until a lateral crack initiates on the debonded free surface, provoking specimen failure. The final failure mechanisms appears to be different for strong and weak fiber/matrix bonding. 3D DIC is used to provide precise measurements of displacements, strains, and out-of-plane displacement during the whole test. Quantitative differences in the displacement fields are measured in the cases of strong and weak bonding between the fiber and matrix. 3D DIC with macro-fibers is shown to be a promising technique to provide a better understanding of the damage mechanisms in a single-fiber composite and to determine interfacial toughness of a specific fibre/matrix couple in order to perform accurate modeling of damage in FRCs. Displacement, strain, and confidence field results for each pixel from each experiment and at each time step are also provided for detailed comparison with simulation results.\n
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\n\n \n \n \n \n \n \n Long term availability of raw experimental data in experimental fracture mechanics.\n \n \n \n \n\n\n \n Diehl, P.; Tabiai, I.; Baumann, F. W.; Therriault, D.; and Levesque, M.\n\n\n \n\n\n\n
Engineering Fracture Mechanics, 197: 21–26. June 2018.\n
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\n\n \n \n Paper\n \n \n\n \n \n doi\n \n \n\n \n link\n \n \n\n bibtex\n \n\n \n \n \n abstract \n \n\n \n\n \n \n \n \n \n \n \n\n \n \n \n \n \n \n \n \n \n\n\n\n
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@article{diehl_long_2018,\n\ttitle = {Long term availability of raw experimental data in experimental fracture mechanics},\n\tvolume = {197},\n\tissn = {0013-7944},\n\turl = {https://www.sciencedirect.com/science/article/pii/S0013794418303023},\n\tdoi = {10.1016/j.engfracmech.2018.04.030},\n\tabstract = {Experimental data availability is a cornerstone for reproducibility in experimental fracture mechanics, which is crucial to the scientific method. This short communication focuses on the accessibility and long term availability of raw experimental data. The corresponding authors of the eleven most cited papers, related to experimental fracture mechanics, for every year from 2000 up to 2016, were kindly asked about the availability of the raw experimental data associated with each publication. For the 187 e-mails sent: 22.46 \\% resulted in outdated contact information, 57.75 \\% of the authors did received our request and did not reply, and 19.79 replied to our request. The availability of data is generally low with only 11 available data sets ( 5.9 \\%). The authors identified two main issues for the lacking availability of raw experimental data. First, the ability to retrieve data is strongly attached to the possibility to contact the corresponding author. This study suggests that institutional e-mail addresses are insufficient means for obtaining experimental data sets. Second, lack of experimental data is also due that submission and publication does not require to make the raw experimental data available. The following solutions are proposed: (1) Requirement of unique identifiers, like ORCID or ResearcherID, to detach the author(s) from their institutional e-mail address, (2) Provide DOIs, like Zenodo or Dataverse, to make raw experimental data citable, and (3) grant providing organizations should ensure that experimental data by public funded projects is available to the public.},\n\tjournal = {Engineering Fracture Mechanics},\n\tauthor = {Diehl, Patrick and Tabiai, Ilyass and Baumann, Felix W. and Therriault, Daniel and Levesque, Martin},\n\tmonth = jun,\n\tyear = {2018},\n\tkeywords = {Experimental fracture mechanics, Long term availability of data, Open data},\n\tpages = {21--26},\n}\n\n
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\n Experimental data availability is a cornerstone for reproducibility in experimental fracture mechanics, which is crucial to the scientific method. This short communication focuses on the accessibility and long term availability of raw experimental data. The corresponding authors of the eleven most cited papers, related to experimental fracture mechanics, for every year from 2000 up to 2016, were kindly asked about the availability of the raw experimental data associated with each publication. For the 187 e-mails sent: 22.46 % resulted in outdated contact information, 57.75 % of the authors did received our request and did not reply, and 19.79 replied to our request. The availability of data is generally low with only 11 available data sets ( 5.9 %). The authors identified two main issues for the lacking availability of raw experimental data. First, the ability to retrieve data is strongly attached to the possibility to contact the corresponding author. This study suggests that institutional e-mail addresses are insufficient means for obtaining experimental data sets. Second, lack of experimental data is also due that submission and publication does not require to make the raw experimental data available. The following solutions are proposed: (1) Requirement of unique identifiers, like ORCID or ResearcherID, to detach the author(s) from their institutional e-mail address, (2) Provide DOIs, like Zenodo or Dataverse, to make raw experimental data citable, and (3) grant providing organizations should ensure that experimental data by public funded projects is available to the public.\n
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