Surface pressure effect on rivet-connected l-corner plates exposed to axial and flexural loadings

Mustafa Murat Yavuz

doi:10.26701/ems.959720

Araştırma Makalesi

Yıl 2022, Cilt: 6 Sayı: 1, 68 - 75, 20.03.2022

Mustafa Murat Yavuz

https://doi.org/10.26701/ems.959720

Öz

Kaynakça

Moreno, J., Valiente, A., Stress Intensity Factors In Riveted Steel Beams. Engineering Failure Analysis, 11, 777–787, 2004
Ibrahim, R. A., Pettit, C. L., Uncertainties And Dynamic Problems Of Bolted Joints And Other Fasteners. Journal of Sound and Vibration, 279, 857–936, 2005.
Bedair, O. K., Eastaugh, G. F., A Numerical Model For Analysis Of Riveted Splice Joints Accounting For Secondary Bending And Plates/Rivet Interaction. Thin-Walled Structures, 45, 251–258, 2007.
Sadowski, T., Golewski, P., Zarzeka-Raczkowska, E., Damage And Failure Processes Of Hybrid Joints: Adhesive Bonded Aluminium Plates Reinforced By Rivets. Computational Materials Science, 50, 1256–126, 2011.
D’Aniello, M., Portioli, F., Fiorino, L., Landolfo, R., Experimental Investigation On Shear Behaviour Of Riveted Connections In Steel Structures. Engineering Structures, 33, 516–531, 2011.
Díaz, C., Martí, P., Victoria, M., Querin, O. M., Review On The Modelling Of Joint Behaviour In Steel Frames. Journal of Constructional Steel Research, 67, 741–758, 2011.
Kumar, D. V. T. G. P., Naarayan, S. S., Sundaram, S. K., Chandra, S., Further Numerical And Experimental Failure Studies On Single And Multi-Row Riveted Lap Joints. Engineering Failure Analysis, 20, 9–24, 2012.
Bedair, O., Stress Field Characteristics Of Eccentrically Loaded Aircraft Spliced Joints. Applied Mathematical Modelling, 36, 4543–4556, 2012
Huang, Z., Xue, S., Lai, J., Xia, L., Zhan, J., Self-Piercing Riveting With Inner Flange Pipe Rivet. Procedia Engineering, 81, 2042 – 2047, 2014.
Skorupa, M., Machniewicz, T., Skorupa, A., Korbel, A., Fatigue Strength Reduction Factors At Rivet Holes For Aircraft Fuselage Lap Joints. International Journal of Fatigue, 80, 417–425, 2015.
Kafie-Martinez, J., Keating, P. B., Chakra-Varthy, P., Correia, J., Jesus, A., Stress Distributions And Crack Growth In Riveted Lap Joints Fastening Thick Steel Plates. Engineering Failure Analysis, 91, 370–381, 2018.
Song, L., Yan, W., Yu, C., Xie, Z., Tan, Q., Flexural Behavior Investigation Of The CFS Truss Beams With Self-Piercing Riveted Connection. Journal of Constructional Steel Research, 156, 28–45, 2019.
Nejad, R. M., Tohidi, M., Darbandi, A. J., Saber, A., Shariati, M., Experimental And Numerical Investigation Of Fatigue Crack Growth Behavior And Optimizing Fatigue Life Of Riveted Joints In Al-Alloy 2024 Plates. Theoretical and Applied Fracture Mechanics, 108, 102669, 2020.
Zhang, X., He, X., Wei, W., Lu, J., Zeng, K., Fatigue Characterization And Crack Propagation Mechanism Of Self-Piercing Riveted Joints In Titanium Plates. International Journal of Fatigue, 134, 105465, 2020.
Karim, M. A., Jeong, T., Noh, W., Park, K., Kam, D., Kim, C., Nam, D., Jung, H., Park, Y., Joint Quality Of Self-Piercing Riveting (SPR) And Mechanical Behavior Under The Frictional Effect Of Various Rivet Coatings. Journal of Manufacturing Processes, 58, 466–477, 2020.
Može, P., Beg, D., A complete Study Of Bearing Stress In Single Bolt Connections, Journal of Constructional Steel Research, 95, 126–140, 2014.
Salih, E. L., Gardner, L., Nethercot, D. A., Numerical investigation Of Net Section Failure In Stainless Steel Bolted Connections. J Construct Steel Res, 66(12), 1455–66, 2010.
Salih, E. L., Gardner, L., Nethercot, D. A., Bearing Failure In Stainless Steel Bolted Connections. Engineering Structures, 33, 549–562, 2011.
Liu, R., Feng, Z., Ye, H., Liu, Y., Stress Redistribution Of Headed Stud Connectors Subjected To Constant Shear Force. International Journal of Steel Structures, 20(2), 436–451, 2020.
Hu, Z., Delfanian, F., Stress concentration In Laminated Composites With A Central Circular Hole Under Biaxial Load, Proceedings of IMECE2005, 2005 ASME International Mechanical Engineering Congress and Exposition, November 5-11, 2005, Orlando, Florida USA
Pilkey, W. D., 1997, Peterson’s Stress Concentration Factors, 2nd ed., Wiley-Interscience, New York.
Young, W. C., Budynas, R. G., 2002, Roark’s Formulas For Stress And Strain, Seventh Edition, McGraw-Hill.
Senguttuvan, N., Lillymercy, J., Joint Strength Analysis Of Single Lap Joint In Glass Fiber Composite Material. International Journal of Applied Engineering Research, 10(7), 16535-16545, 2015.
Yan, W., Xie, Z., Yu, C., Song, L., He, H., Experimental Investigation And Design Method For The Shear Strength Of Self-Piercing Rivet Connections In Thin-Walled Steel Structures. Journal of Constructional Steel Research, 133, 231–240, 2017.
Sadowski, T., Golewski, P., Zarzeka-Raczkowska, E., Damage And Failure Processes Of Hybrid Joints: Adhesive Bonded Aluminium Plates Reinforced By Rivets. Computational Materials Science, 50, 1256-1262, 2011.
Lacher, A., Jüngel, N., Wagner, U., Bager, A., Analytical Calculation Of In-Plane Response Of Plates With Concentrated Masses To Impact And Application To Pyroshock Simulation. Journal of Sound and Vibration, 331, 3358–3370, 2012.
Alisjahbana, S. W., Wangsadinata, W., Response Of Damped Orthotropic Stiffened Plates Subjected To A Stepped Triangular Blast Loading. Procedia Engineering, 14, 989–996, 2011.
Wang, Z., Liang, X., Liu, G., An Analytical Method For Evaluating The Dynamic Response Of Plates Subjected To Underwater Shock Employing Mindlin Plate Theory And Laplace Transforms. Mathematical Problems in Engineering, Article ID 803609, 1-11, 2013.
Sansalone, M., Carino, N. J., Transient Impact Response Of Plates Containing Flaws. Journal of Research of the National Bureau of Standards, 92(6), 369-381, 1987.

Surface pressure effect on rivet-connected l-corner plates exposed to axial and flexural loadings

Yıl 2022, Cilt: 6 Sayı: 1, 68 - 75, 20.03.2022

Mustafa Murat Yavuz

https://doi.org/10.26701/ems.959720

Öz

In this study, the stress and deformation behavior of two I-corner plates with rivet connection in bending and tension were investigated. Pure bending and axial tension were applied at the end edge as the boundary condition and fixed support was defined at the other end edge of the plates. The finite element method was used. A suitable validation study was conducted, and its results were compared with the literature cases. A surface pressure was applied to the rounded I-corner. The results are shown in the form of the stress concentration factor. The time-dependent response of applied pressure was also performed to observe the dynamic behavior. The stresses in the plates occurred at the calculated values and as a result the stress concentration factor was about 1.0. The stress concentration factor of the plate in the rivet region is I=0.2 and in the rivets goes up to 5.0. The results are discussed in detail.

Anahtar Kelimeler

Rivet connection, bending, l-corner, plates, stress concentration

Kaynakça

Moreno, J., Valiente, A., Stress Intensity Factors In Riveted Steel Beams. Engineering Failure Analysis, 11, 777–787, 2004
Ibrahim, R. A., Pettit, C. L., Uncertainties And Dynamic Problems Of Bolted Joints And Other Fasteners. Journal of Sound and Vibration, 279, 857–936, 2005.
Bedair, O. K., Eastaugh, G. F., A Numerical Model For Analysis Of Riveted Splice Joints Accounting For Secondary Bending And Plates/Rivet Interaction. Thin-Walled Structures, 45, 251–258, 2007.
Sadowski, T., Golewski, P., Zarzeka-Raczkowska, E., Damage And Failure Processes Of Hybrid Joints: Adhesive Bonded Aluminium Plates Reinforced By Rivets. Computational Materials Science, 50, 1256–126, 2011.
D’Aniello, M., Portioli, F., Fiorino, L., Landolfo, R., Experimental Investigation On Shear Behaviour Of Riveted Connections In Steel Structures. Engineering Structures, 33, 516–531, 2011.
Díaz, C., Martí, P., Victoria, M., Querin, O. M., Review On The Modelling Of Joint Behaviour In Steel Frames. Journal of Constructional Steel Research, 67, 741–758, 2011.
Kumar, D. V. T. G. P., Naarayan, S. S., Sundaram, S. K., Chandra, S., Further Numerical And Experimental Failure Studies On Single And Multi-Row Riveted Lap Joints. Engineering Failure Analysis, 20, 9–24, 2012.
Bedair, O., Stress Field Characteristics Of Eccentrically Loaded Aircraft Spliced Joints. Applied Mathematical Modelling, 36, 4543–4556, 2012
Huang, Z., Xue, S., Lai, J., Xia, L., Zhan, J., Self-Piercing Riveting With Inner Flange Pipe Rivet. Procedia Engineering, 81, 2042 – 2047, 2014.
Skorupa, M., Machniewicz, T., Skorupa, A., Korbel, A., Fatigue Strength Reduction Factors At Rivet Holes For Aircraft Fuselage Lap Joints. International Journal of Fatigue, 80, 417–425, 2015.
Kafie-Martinez, J., Keating, P. B., Chakra-Varthy, P., Correia, J., Jesus, A., Stress Distributions And Crack Growth In Riveted Lap Joints Fastening Thick Steel Plates. Engineering Failure Analysis, 91, 370–381, 2018.
Song, L., Yan, W., Yu, C., Xie, Z., Tan, Q., Flexural Behavior Investigation Of The CFS Truss Beams With Self-Piercing Riveted Connection. Journal of Constructional Steel Research, 156, 28–45, 2019.
Nejad, R. M., Tohidi, M., Darbandi, A. J., Saber, A., Shariati, M., Experimental And Numerical Investigation Of Fatigue Crack Growth Behavior And Optimizing Fatigue Life Of Riveted Joints In Al-Alloy 2024 Plates. Theoretical and Applied Fracture Mechanics, 108, 102669, 2020.
Zhang, X., He, X., Wei, W., Lu, J., Zeng, K., Fatigue Characterization And Crack Propagation Mechanism Of Self-Piercing Riveted Joints In Titanium Plates. International Journal of Fatigue, 134, 105465, 2020.
Karim, M. A., Jeong, T., Noh, W., Park, K., Kam, D., Kim, C., Nam, D., Jung, H., Park, Y., Joint Quality Of Self-Piercing Riveting (SPR) And Mechanical Behavior Under The Frictional Effect Of Various Rivet Coatings. Journal of Manufacturing Processes, 58, 466–477, 2020.
Može, P., Beg, D., A complete Study Of Bearing Stress In Single Bolt Connections, Journal of Constructional Steel Research, 95, 126–140, 2014.
Salih, E. L., Gardner, L., Nethercot, D. A., Numerical investigation Of Net Section Failure In Stainless Steel Bolted Connections. J Construct Steel Res, 66(12), 1455–66, 2010.
Salih, E. L., Gardner, L., Nethercot, D. A., Bearing Failure In Stainless Steel Bolted Connections. Engineering Structures, 33, 549–562, 2011.
Liu, R., Feng, Z., Ye, H., Liu, Y., Stress Redistribution Of Headed Stud Connectors Subjected To Constant Shear Force. International Journal of Steel Structures, 20(2), 436–451, 2020.
Hu, Z., Delfanian, F., Stress concentration In Laminated Composites With A Central Circular Hole Under Biaxial Load, Proceedings of IMECE2005, 2005 ASME International Mechanical Engineering Congress and Exposition, November 5-11, 2005, Orlando, Florida USA
Pilkey, W. D., 1997, Peterson’s Stress Concentration Factors, 2nd ed., Wiley-Interscience, New York.
Young, W. C., Budynas, R. G., 2002, Roark’s Formulas For Stress And Strain, Seventh Edition, McGraw-Hill.
Senguttuvan, N., Lillymercy, J., Joint Strength Analysis Of Single Lap Joint In Glass Fiber Composite Material. International Journal of Applied Engineering Research, 10(7), 16535-16545, 2015.
Yan, W., Xie, Z., Yu, C., Song, L., He, H., Experimental Investigation And Design Method For The Shear Strength Of Self-Piercing Rivet Connections In Thin-Walled Steel Structures. Journal of Constructional Steel Research, 133, 231–240, 2017.
Sadowski, T., Golewski, P., Zarzeka-Raczkowska, E., Damage And Failure Processes Of Hybrid Joints: Adhesive Bonded Aluminium Plates Reinforced By Rivets. Computational Materials Science, 50, 1256-1262, 2011.
Lacher, A., Jüngel, N., Wagner, U., Bager, A., Analytical Calculation Of In-Plane Response Of Plates With Concentrated Masses To Impact And Application To Pyroshock Simulation. Journal of Sound and Vibration, 331, 3358–3370, 2012.
Alisjahbana, S. W., Wangsadinata, W., Response Of Damped Orthotropic Stiffened Plates Subjected To A Stepped Triangular Blast Loading. Procedia Engineering, 14, 989–996, 2011.
Wang, Z., Liang, X., Liu, G., An Analytical Method For Evaluating The Dynamic Response Of Plates Subjected To Underwater Shock Employing Mindlin Plate Theory And Laplace Transforms. Mathematical Problems in Engineering, Article ID 803609, 1-11, 2013.
Sansalone, M., Carino, N. J., Transient Impact Response Of Plates Containing Flaws. Journal of Research of the National Bureau of Standards, 92(6), 369-381, 1987.

Toplam 29 adet kaynakça vardır.

Ayrıntılar

Birincil Dil	İngilizce
Konular	Makine Mühendisliği
Bölüm	Research Article
Yazarlar	Mustafa Murat Yavuz 0000-0002-5892-0075
Yayımlanma Tarihi	20 Mart 2022
Kabul Tarihi	11 Ağustos 2021
Yayımlandığı Sayı	Yıl 2022 Cilt: 6 Sayı: 1

Kaynak Göster

APA	Yavuz, M. M. (2022). Surface pressure effect on rivet-connected l-corner plates exposed to axial and flexural loadings. European Mechanical Science, 6(1), 68-75. https://doi.org/10.26701/ems.959720
AMA	Yavuz MM. Surface pressure effect on rivet-connected l-corner plates exposed to axial and flexural loadings. EMS. Mart 2022;6(1):68-75. doi:10.26701/ems.959720
Chicago	Yavuz, Mustafa Murat. “Surface Pressure Effect on Rivet-Connected L-Corner Plates Exposed to Axial and Flexural Loadings”. European Mechanical Science 6, sy. 1 (Mart 2022): 68-75. https://doi.org/10.26701/ems.959720.
EndNote	Yavuz MM (01 Mart 2022) Surface pressure effect on rivet-connected l-corner plates exposed to axial and flexural loadings. European Mechanical Science 6 1 68–75.
IEEE	M. M. Yavuz, “Surface pressure effect on rivet-connected l-corner plates exposed to axial and flexural loadings”, EMS, c. 6, sy. 1, ss. 68–75, 2022, doi: 10.26701/ems.959720.
ISNAD	Yavuz, Mustafa Murat. “Surface Pressure Effect on Rivet-Connected L-Corner Plates Exposed to Axial and Flexural Loadings”. European Mechanical Science 6/1 (Mart 2022), 68-75. https://doi.org/10.26701/ems.959720.
JAMA	Yavuz MM. Surface pressure effect on rivet-connected l-corner plates exposed to axial and flexural loadings. EMS. 2022;6:68–75.
MLA	Yavuz, Mustafa Murat. “Surface Pressure Effect on Rivet-Connected L-Corner Plates Exposed to Axial and Flexural Loadings”. European Mechanical Science, c. 6, sy. 1, 2022, ss. 68-75, doi:10.26701/ems.959720.
Vancouver	Yavuz MM. Surface pressure effect on rivet-connected l-corner plates exposed to axial and flexural loadings. EMS. 2022;6(1):68-75.

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