In this study, shear tests results of single lap adhesive joints with Aluminum 5754 are included. To investigate the effect of closed-hole drilling on adhesive-bonded joints, different types of connection configurations were created by drilling holes in the surfaces of the aluminum. When holes are drilled into one of the aluminum parts in the joint, there was a 39% increase in the failure load of the joints using Araldite 2015 compared to both without holes aluminum. The increase in the failure load on joints using Araldite AV138 was 54%. When holes are drilled into both aluminum parts in the joint, there was a 98% increase in the failure load of the joints using Araldite 2015 compared to both without holes aluminum. The increase in the failure load on joints using Araldite AV138 was 165%. In addition, the elongation amounts in the shear tests of the samples using Araldite 2015 were higher than the samples using Araldite AV 138.
[1] M. Soleymani, M. Tahani, and P. Zamani, "On the
influence of resin pocket area on the failure of tapered
sandwich composites," Advances in Structural Engineering.,
vol. 24, no. 1, pp. 42-51, 2021.
[2] R. M. Nejad, D. G. Moghadam, M. Hadi, P. Zamani, and
F. Berto,"An investigation on static and fatigue life
evaluation of grooved adhesively bonded T-joints,"
Structures., vol. 35, pp. 340-349, 2022.
[3] D. Rosendo, G. Viana, R. Carbas, E. Marques, and L. Da
Silva, "Effect of temperature and moisture on the impact
behaviour of adhesive joints for the automotive industry,"
Journal of Applied and Computational Mechanics., vol. 7,
no. 3, pp. 1488-1500, 2021.
[4] J. Kupski and S. T. De Freitas, "Design of adhesively
bonded lap joints with laminated CFRP adherends: review,
challenges and new opportunities for aerospace structures,"
Composite Structures., vol. 268, p. 113923, 2021.
[5] D. Shore, J. Wilson, A. Matthews, A. Yerokhin,
"Adhesive bond strength of PEO coated AA6060-T6,"
Surface and Coatings Technology., vol. 428, p. 127898,
2021.
[6] B. Nečasová, P. Liška, and J. Šlanhof, "Analysis of
temperature effect on deformation behaviour and bond
strength of adhesive joints with steel and composite
substrates," In Industrial Applications of Adhesives: 1st
International Conference on Industrial Applications of
Adhesives, 2021, pp. 107-125.
[7] M. D. Banea, L. Da Silva, and R. D. Campilho, "The
effect of adhesive thickness on the mechanical behavior of a
structural polyurethane adhesive," The Journal of Adhesion.,
vol. 91, no. 5, pp. 331-346, 2015.
[8] A. Tutunchi, R. Kamali, and A. Kianvash, "Adhesive
strength of steel–epoxy composite joints bonded with
structural acrylic adhesives filled with silica nanoparticles,"
Journal of Adhesion Science and Technology., vol. 29, no.
3, pp. 195-206, 2015.
[9] L. Sun, C. Li, Y. Tie, Y. Hou, and Y. Duan,
"Experimental and numerical investigations of adhesively
bonded CFRP single-lap joints subjected to tensile loads,"
International Journal of Adhesion and Adhesives., vol. 95, p.
102402, 2019.
[10] S. Bayramoglu, K. Demir, and S. Akpinar,
"Investigation of internal step and metal part reinforcement
on joint strength in the adhesively bonded joint:
Experimental and numerical analysis," Theoretical and
Applied Fracture Mechanics., vol. 108, p. 102613, 2020.
[11] K. Gültekin, S. Akpinar, A. Özel, and G. A. Öner,
"Effects of unbalance on the adhesively bonded compositesaluminium joints," The Journal of Adhesion., vol. 93, no. 9, pp. 674-687, 2017.
[12] J.B. Sauvage et al., "Using the 3-point bending method
to study failure initiation in epoxide-aluminum joints,"
International Journal of Adhesion and Adhesives., vol. 75,
pp. 181-189, 2017.
[13] E. Ç. Kavdir and M. D. Aydin, "The experimental and
numerical study on the mechanical behaviours of adhesively
bonded joints," Composites Part B: Engineering., vol. 184,
p. 107725, 2020.
[14] Ş. Çitil, "Experimental and Numerical Investigation of
Adhesively Bonded Curved Lap Joints under Three-Point
Bending," Mechanics., vol. 24, no. 6, 2018.
[15] S. Genty, J.B. Sauvage, P. Tingaut, and M. Aufray,
"Experimental and statistical study of three adherence tests
for an epoxy-amine/aluminum alloy system: Pull-Off, Single
Lap Joint and Three-Point Bending tests," International
Journal of Adhesion and Adhesives., vol. 79, pp. 50-58,
2017.
[16] F. Kadioglu, E. Avil, M. E. Ercan, and T. Aydogan,
"Effects of different overlap lengths and composite adherend
thicknesses on the performance of adhesively-bonded joints
under tensile and bending loadings," In IOP Conference
Series: Materials Science and Engineering, 2018, vol. 369,
no. 1, p. 012034.
[17] F. Zou, J. Dang, T. Chen, Q. An, and M. Chen,
"Evaluation of typical hole-making strategies on mechanical
behavior of CFRP/Ti single-lap bolted joints," Composite
Structures., vol. 305, p. 116511, 2023.
[18] F. Gamdani, R. Boukhili, and A. Vadean, "Tensile
strength of open-hole, pin-loaded and multi-bolted single-lap
joints in woven composite plates," Materials & Design., vol.
88, pp. 702-712, 2015.
[19] L. F. Da Silva, G. Critchlow, and M. A. Figueiredo,
"Parametric study of adhesively bonded single lap joints by
the taguchi method," Journal of Adhesion Science and
Technology., vol. 22, no. 13, pp. 1477-1494, 2008.
[20] M. Bakkal, H. Osmanoğlu, and M. S. Bodur, "Effect of
surface treatments on the interfacial strength for metal/composite hybrid joints," Journal of the Faculty of
Engineering and Architecture of Gazi University., vol. 37,
no. 2, pp. 1033-1046, 2022.
[21] M. Alfano et al., "Surface patterning of metal substrates
through low power laser ablation for enhanced adhesive
bonding," The Journal of Adhesion., vol. 90, no. 5-6, pp.
384-400, 2014.
[22] P. Maressa, L. Anodio, A. Bernasconi, and A. G. Demir,
"Effect of surface texture on the adhesion performance of
laser treated Ti6Al4V alloy," The journal of adhesion., vol.
91, no. 7, pp. 518-537, 2015.
[23] A. Pinto, R. Campilho, I. R. Mendes, S. Aires, and. A.
Baptista, "Effect of hole drilling at the overlap on the
strength of single-lap joints," International Journal of
Adhesion and Adhesives., vol. 31, no. 5, pp. 380-387, 2011.
[24] W. Zielecki, K. Łabno, R. Perłowski, Ł. Bąk, and T.
Katrňák, "Experimental Research on the Influence of
Structural Modifications of Adherends on the Load-Bearing
Capacity of Lap Joints of S235JR Steel Sheets," Advances
in Mechanical and Materials Engineering., vol. 40, no. 1, pp.
5-13, 2023.
[25] N. G. Barbosa., R. D. Campillo, F. J Silva, and R. D.
Moreira "Comparison of different adhesively-bonded joint
types for mechanical structures," Applied Adhesion
Science., vol. 6, no. 15, pp. 1-19, 2018
Kör delik delmenin alüminyum 5754 ile oluşturulan tek bindirmeli yapıştırma bağlantıların kayma dayanımına etkisi
Year 2024,
Volume: 15 Issue: 1, 169 - 175, 29.03.2024
Bu çalışmada, Alüminyum 5754 ile oluşturulan tek bindirmeli yapıştırma bağlantıların kayma test sonuçlarına yer verilmiştir. Kapalı delik delme işleminin yapıştırıcı ile birleştirilmiş bağlantılar üzerindeki etkisini araştırmak amacıyla alüminyumların yüzeylerine delikler delinerek farklı tipte bağlantı konfigürasyonları oluşturulmuştur. Bağlantıdaki alüminyum parçalardan biri delikli olduğunda, Araldite 2015 kullanılan bağlantıların hasar yükünde, her ikisi de deliksiz alüminyumlara göre %39 artış görülmüştür. Araldite AV138 kullanılan bağlantılardaki hasar yükünde ise artış %54 olmuştur. Bağlantıdaki alüminyumlardan ikisi de delikli olduğunda, Araldite 2015 kullanılan bağlantılardaki hasar yükünde, her ikisi de deliksiz alüminyumlara göre %98 artış görülmüştür. Araldite AV138 kullanılan bağlantılardaki hasar yükünde ise artış %165 olmuştur. Ayrıca, Araldite 2015 kullanılan numunelerin kayma testlerindeki uzama miktarları Araldite AV 138 kullanılan numunelere göre daha yüksek çıkmıştır.
Balıkesir Üniversitesi Bilimsel Araştırma Projeleri Koordinasyon Birimi
Project Number
2023/90
Thanks
Bu çalışma Balıkesir Üniversitesi Bilimsel Araştırma Projeleri Koordinasyon Birimince desteklenmiştir. Proje numarası: 2023/90.
References
[1] M. Soleymani, M. Tahani, and P. Zamani, "On the
influence of resin pocket area on the failure of tapered
sandwich composites," Advances in Structural Engineering.,
vol. 24, no. 1, pp. 42-51, 2021.
[2] R. M. Nejad, D. G. Moghadam, M. Hadi, P. Zamani, and
F. Berto,"An investigation on static and fatigue life
evaluation of grooved adhesively bonded T-joints,"
Structures., vol. 35, pp. 340-349, 2022.
[3] D. Rosendo, G. Viana, R. Carbas, E. Marques, and L. Da
Silva, "Effect of temperature and moisture on the impact
behaviour of adhesive joints for the automotive industry,"
Journal of Applied and Computational Mechanics., vol. 7,
no. 3, pp. 1488-1500, 2021.
[4] J. Kupski and S. T. De Freitas, "Design of adhesively
bonded lap joints with laminated CFRP adherends: review,
challenges and new opportunities for aerospace structures,"
Composite Structures., vol. 268, p. 113923, 2021.
[5] D. Shore, J. Wilson, A. Matthews, A. Yerokhin,
"Adhesive bond strength of PEO coated AA6060-T6,"
Surface and Coatings Technology., vol. 428, p. 127898,
2021.
[6] B. Nečasová, P. Liška, and J. Šlanhof, "Analysis of
temperature effect on deformation behaviour and bond
strength of adhesive joints with steel and composite
substrates," In Industrial Applications of Adhesives: 1st
International Conference on Industrial Applications of
Adhesives, 2021, pp. 107-125.
[7] M. D. Banea, L. Da Silva, and R. D. Campilho, "The
effect of adhesive thickness on the mechanical behavior of a
structural polyurethane adhesive," The Journal of Adhesion.,
vol. 91, no. 5, pp. 331-346, 2015.
[8] A. Tutunchi, R. Kamali, and A. Kianvash, "Adhesive
strength of steel–epoxy composite joints bonded with
structural acrylic adhesives filled with silica nanoparticles,"
Journal of Adhesion Science and Technology., vol. 29, no.
3, pp. 195-206, 2015.
[9] L. Sun, C. Li, Y. Tie, Y. Hou, and Y. Duan,
"Experimental and numerical investigations of adhesively
bonded CFRP single-lap joints subjected to tensile loads,"
International Journal of Adhesion and Adhesives., vol. 95, p.
102402, 2019.
[10] S. Bayramoglu, K. Demir, and S. Akpinar,
"Investigation of internal step and metal part reinforcement
on joint strength in the adhesively bonded joint:
Experimental and numerical analysis," Theoretical and
Applied Fracture Mechanics., vol. 108, p. 102613, 2020.
[11] K. Gültekin, S. Akpinar, A. Özel, and G. A. Öner,
"Effects of unbalance on the adhesively bonded compositesaluminium joints," The Journal of Adhesion., vol. 93, no. 9, pp. 674-687, 2017.
[12] J.B. Sauvage et al., "Using the 3-point bending method
to study failure initiation in epoxide-aluminum joints,"
International Journal of Adhesion and Adhesives., vol. 75,
pp. 181-189, 2017.
[13] E. Ç. Kavdir and M. D. Aydin, "The experimental and
numerical study on the mechanical behaviours of adhesively
bonded joints," Composites Part B: Engineering., vol. 184,
p. 107725, 2020.
[14] Ş. Çitil, "Experimental and Numerical Investigation of
Adhesively Bonded Curved Lap Joints under Three-Point
Bending," Mechanics., vol. 24, no. 6, 2018.
[15] S. Genty, J.B. Sauvage, P. Tingaut, and M. Aufray,
"Experimental and statistical study of three adherence tests
for an epoxy-amine/aluminum alloy system: Pull-Off, Single
Lap Joint and Three-Point Bending tests," International
Journal of Adhesion and Adhesives., vol. 79, pp. 50-58,
2017.
[16] F. Kadioglu, E. Avil, M. E. Ercan, and T. Aydogan,
"Effects of different overlap lengths and composite adherend
thicknesses on the performance of adhesively-bonded joints
under tensile and bending loadings," In IOP Conference
Series: Materials Science and Engineering, 2018, vol. 369,
no. 1, p. 012034.
[17] F. Zou, J. Dang, T. Chen, Q. An, and M. Chen,
"Evaluation of typical hole-making strategies on mechanical
behavior of CFRP/Ti single-lap bolted joints," Composite
Structures., vol. 305, p. 116511, 2023.
[18] F. Gamdani, R. Boukhili, and A. Vadean, "Tensile
strength of open-hole, pin-loaded and multi-bolted single-lap
joints in woven composite plates," Materials & Design., vol.
88, pp. 702-712, 2015.
[19] L. F. Da Silva, G. Critchlow, and M. A. Figueiredo,
"Parametric study of adhesively bonded single lap joints by
the taguchi method," Journal of Adhesion Science and
Technology., vol. 22, no. 13, pp. 1477-1494, 2008.
[20] M. Bakkal, H. Osmanoğlu, and M. S. Bodur, "Effect of
surface treatments on the interfacial strength for metal/composite hybrid joints," Journal of the Faculty of
Engineering and Architecture of Gazi University., vol. 37,
no. 2, pp. 1033-1046, 2022.
[21] M. Alfano et al., "Surface patterning of metal substrates
through low power laser ablation for enhanced adhesive
bonding," The Journal of Adhesion., vol. 90, no. 5-6, pp.
384-400, 2014.
[22] P. Maressa, L. Anodio, A. Bernasconi, and A. G. Demir,
"Effect of surface texture on the adhesion performance of
laser treated Ti6Al4V alloy," The journal of adhesion., vol.
91, no. 7, pp. 518-537, 2015.
[23] A. Pinto, R. Campilho, I. R. Mendes, S. Aires, and. A.
Baptista, "Effect of hole drilling at the overlap on the
strength of single-lap joints," International Journal of
Adhesion and Adhesives., vol. 31, no. 5, pp. 380-387, 2011.
[24] W. Zielecki, K. Łabno, R. Perłowski, Ł. Bąk, and T.
Katrňák, "Experimental Research on the Influence of
Structural Modifications of Adherends on the Load-Bearing
Capacity of Lap Joints of S235JR Steel Sheets," Advances
in Mechanical and Materials Engineering., vol. 40, no. 1, pp.
5-13, 2023.
[25] N. G. Barbosa., R. D. Campillo, F. J Silva, and R. D.
Moreira "Comparison of different adhesively-bonded joint
types for mechanical structures," Applied Adhesion
Science., vol. 6, no. 15, pp. 1-19, 2018
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