![]() Where b= width of the plate D=Gross diameter of the rivet and t=Thickness of the plate. Strength of plate in tearing at 1-1 = (b-3D).t.p t At section 3-3 is equal to the strength of plate in tearing at 3-3 plus strength of rivets in bearing or shearing whichever is less (6 nos.). At section 2-2 is equal to the strength of plate in tearing at 2-2 plus strength of three rivets in bearing or shearing whichever is less at 1-1. Section 1-1 is the critical section as compared to the other section. 6.1 and in the figure 1-1, 2-2 and 3-3 shows sections on either side of the joint. Diamond riveting.Ħ.3.1 Chain Riveting: In chain riveting the rivets are arranged as shown in Fig. Rivets in a riveted joint are arranged in two forms, namely, 1. ![]() Rivet hole is assumed to be completely filled by the rivet Shear stress is assumed to be uniformly distributed over the gross area of rivetsīearing stress is assumed to be uniform between the contact surfaces of plate and rivet ![]() Load is assumed to be uniformly distributed among all the rivets Procedure for design of a riveted joint is simplified by making the following assumptions and by keeping in view the safety of the joint. Hallquist, LS-DYNA Keyword User’s Manual, Livermore Software Technology Corporation, 970 (2007) 299–800.6.2 ASSUMPTIONS FOR THE DESIGN OF RIVETED JOINT ![]() Merklein, Potential of shear-clinching technology for joining of three sheets, Journal of Advanced Joining Processes, 3 (2021) 100043. Durandet, Strength prediction of self-pierce riveted joint in cross-tension and lap-shear, Materials and Design, 108 (2016) 666–678. Lyu et al., Bearing behavior of multi-bolt high strength steel connections, Engineering Structures, 212 (2020) 110510. Wang et al., Bearing-strength of high strength steel plates in two-bolt connections, Journal of Constructional Steel Research, 155 (2019) 205–218. Wang, Load-deflection behavior of thin-walled plates with multiple bolts in shearing, Thin-Walled Structures, 55 (2012) 51–63. Lyu et al., Numerical analysis on the ultimate bearing resistance of single-bolt connection with high strength steels, Journal of Constructional Steel Research, 153 (2019) 118–129. Wang et al., Behavior of single bolt bearing on high strength steel plate, Journal of Constructional Steel Research, 137 (2017) 19–30. Kim et al., Prediction of load-displacement curves of flow drill screw and RIVTAC joints between dissimilar materials using artificial neural networks, Journal of Manufacturing Processes, 57 (2020) 400–408. Langseth, Macroscopic modelling of flow-drill screw connections in thin-walled aluminium structures, Thin-Walled Structures, 105 (2016) 185–206. Hoang et al., Structural behaviour of aluminium self-piercing riveted joints: an experimental and numerical investigation, International Journal of Solids and Structures, 49(23–24) (2012) 3211–3223. Hanssen et al., A large-scale finite element point-connector model for self-piercing rivet connections, European Journal of Mechanics-A/Solids, 29(4) (2010) 484–495. Langseth, Static and dynamic testing and modelling of aluminium joints with flow-drill screw connections, International Journal of Impact Engineering, 115 (2018) 58–75.Ī. Hong, Design optimization of m8 blind rivet nut geometry using finite element analysis, Transactions of Materials Processing, 29(3) (2020) 157–162. Costello, FEA modelling of setting and mechanical testing of aluminum blind rivets, Journal of Materials Processing Technology, 153 (2004) 74–79.ī. Zhao et al., Finite element analysis of the shear capacity of stainless-steel blind-rivet connections, Journal of Constructional Steel Research, 179 (2021) 106558.ī. ![]() Gao et al., A new one-sided joining process for aluminum alloys: friction stir blind riveting, Journal of Manufacturing Science and Engineering, 131 (6) (2009). Mori, Joinability of aluminium alloy and mild steel sheets by self piercing rivet, Journal of Materials Processing Technology, 177(1–3) (2006) 417–421.ĭ. Park, A review on welding of dissimilar metals in car body manufacturing, Journal of Welding and Joining, 38(1) (2020) 8–23. Hameed, Mechanical and microstuctural analysis of dissimilar metal welds, International Journal of Research and Reviews in Applied Sciences, 25(1) (2015) 6. Singh, Application of steel in automotive industry, International Journal of Emerging Technology and Advanced Engineering, 6(7) (2016) 246–253.į. ![]()
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