Mechanisms of Bolt Preload Relaxation Arising from In-Plane Loads and Bolt Bending

[1] Welch, M. “Analysis of Bolt Bending in Preloaded Joints”, Strojnícky časopis – Journal of Mechanical Engineering 68 (3), pp. 183 – 194, 2018. DOI: 10.2478/scjme-2018-0034 Search in Google Scholar

[2] Verein Deutscher Ingenieure (Association of German Engineers). VDI 2230 Part 1. 2003, Systematic calculation of high duty bolted joints with one cylindrical bolt, Verein Deutscher Ingenieure, Dusseldorf. Search in Google Scholar

[3] Rotscher, F. “Die Maschinenelements”, Julius Springer, Berlin, Germany, 1927. Search in Google Scholar

[4] David, A. “Pressure Distribution and Calculation of Pressure Cone Angle”, Fastener Technology International, April 2010. Search in Google Scholar

[5] Budynas, R., Nisbett, J K. “Shigley’s Mechanical Engineering Design”, 8^th edition. McGraw Hill, Primis Online, 2006. ISBN 0-390-76487-6 Search in Google Scholar

[6] ESDU 85021. “Analysis of pretensioned bolted joints subject to tensile (separating) forces”, ESDU International; Issued August 1985 with Amendments A to C February 2005. Search in Google Scholar

[7] Canyurt, OE., Sekercioglu, T. “A new approach for calculating the stiffness of bolted connections”, Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications,230 (2): pp. 426 – 435, 2016. Search in Google Scholar

[8] Routh B, Das S. “An Alternative Formulation for Determining Stiffness of Members with Bolted Connections”, International Journal of Engineering Research and Technology 5(1), pp. 442 – 445, 2016. Search in Google Scholar

[9] British Standards Institution, BS EN ISO 898:2009, “Mechanical properties of fasteners made of carbon steel and alloy steel Code”, British Standards Institution, London. Search in Google Scholar

[10] British Standards Institution, BS 3580:1964, “Guide to the design considerations on: The strength of screw threads”, British Standards Institution, London. Search in Google Scholar