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Simulating Torsional Slip in V-band Clamp Joints

Sahboun, Salahaddin and Barrans, Simon (2015) Simulating Torsional Slip in V-band Clamp Joints. Applied Mechanics and Materials, 798. pp. 53-58. ISSN 1662-7482

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In this paper a finite element technique to predict the torsional load capacity of V-band clamp joints is presented. The development of this complex, multi-step analysis is explained and the results compared with alternate theories which ignore or take account of transverse friction in the band to flange contact region. It is shown that accounting for transverse friction yields a better comparison with the finite element results for lower coefficients of friction whilst ignoring this component gives better results for higher coefficients of friction. Torsional load capacity is shown to increase with band diameter and T-bolt tension but to be less dependent on the coefficient of friction.

Item Type: Article
Uncontrolled Keywords: V-band clamp, torsional load capacity, friction, finite element analysis
Subjects: T Technology > TJ Mechanical engineering and machinery
Schools: School of Computing and Engineering > Turbocharger Research Institute
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References: [1] K. Shoghi, Stress and strain analysis of flat and V-section band clamps, PhD thesis, University of Huddersfield (2003). [2] Teconnex, High Performance Quality Clamps, online: (2010). [3] K. Shoghi, S.M. Barrans, H.V. Rao, Stress in V-section band clamps. Proc IMechE Part C, Journal of Mechanical Engineering Science, 218 (3). pp. 251-261 (2004). [4] K. Shoghi, S.M. Barrans, P. Ramasamy, (2005) Axial Load Capacity of V-Section Band Clamp Joints, 8th Int Conf Torbochargers and Turbocharging, London, pp. 273-285 (2005). [5] S. M. Barrans, M. Muller, Finite element prediction of the ultimate axial load capacity of V-section band clamps. Journal of Physics: conference series, 181. pp. 1-8 (2009). [6] S. M. Barrans, G. Khodabakhshi, Q. Xu, Qiang, Contact Pressure Distribution in Joints Formed by V-Band Clamps. Advanced Materials Research , 1016. pp 34-38 (2014). [7] H. Guo, D. Wang, E Liang, A method to predict axial clamping force and anti-rotating torque for V-band joint. Power Systems Conf. Fort Worth, USA. SAE International 2010-01-1813 (2010). [8] S. M. Barrans, A. Waterworth, S. Sahboun, Analysis of the Torsional Load Capacity of V-Section Band Clamps. Advanced Materials Research, 1016. pp. 59-64 (2014). [9] Dassault Systems, Abaqus user manual v6.14, (2014). [10] R. Weyler, J. Oliver, T, Sain, J.C. Cante, On the contact domain method: A comparison of penalty and Lagrange multiplier implementations, Computer Methods in Applied Mechanics and Engineering, Vol 205-208, pp 68-82 (2012).
Depositing User: Simon Barrans
Date Deposited: 06 Oct 2015 08:32
Last Modified: 28 Aug 2021 17:46


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