PSI - Issue 42

Fatih Kocatürk et al. / Procedia Structural Integrity 42 (2022) 1206–1214 Author name / Structural Integrity Procedia 00 (2019) 000 – 000

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Hedayat, A.A., Afzadi, E.A., Iranpour, A., 2017. Prediction of the Bolt Fracture in Shear Using Finite Element Method. Structures 12, 188 – 210. Hongfei, G., Yan, J., Zhang, R., He, Z., Zhao, Z., Qu, T., Wan, M., Liu, J., Li, C., 2019. Failure Analysis on 42CrMo Steel Bolt Fracture. Advances in Materials Science and Engineering 2019, 1 – 8. Hu, Y., Shen, L., Nie, S., Yang, B., Sha, W., 2016. FE simulation and experimental tests of high-strength structural bolts under tension. Journal of Constructional Steel Research 126, 174 – 186. Hück, M., Thrainer, L., Schütz, W., 1983. Berechnung von Wöhlerlinien für Bauteile aus Stahl, Stahlguss und Grauguss – Synthetische Wöhlerlinien – Verein deutscher Eisenhüttenleute, Report no. ABF 11. Düsseldorf. ISO 898-1, 2004. Mechanical Properties of Fasteners Made of Carbon Steel and Alloy Steel. Kocatürk, F., Toparli, M.B., Tanrıkulu, B., İnce, U., Kılıçaslan, C., 2020. A new analytical model to estimate maximum intern al socket depth of non-reduced strength bolts. Procedia Structural Integrity 28, 1276 – 1285. Lehnhoff, T.F., Bunyard, B.A., 2000. Bolt Thread and Head Fillet Stress Concentration Factors. Journal of Pressure Vessel Technology 122, 180 – 185. Majzoobi, G.H., Farrahi, G.H., Hardy, S.J., Pipelzadeh, M.K., Habibi, N., 2005. Experimental results and finite-element predictions of the effect of nut geometry, washer and Teflon tape on the fatigue life of bolts. Fatigue & Fracture of Engineering Materials & Structures 28, 557 – 564. Novoselac, S., Kozak, D., Ergić, T., Damjanović, D., 2014a. Fatigue damage assessment of bolted j oint under different preload. Structural Integrity and Life 14, 93 – 109. Novoselac, S., Kozak, D., Ergić, T., Šimić, I., 2014b. Influence of stress gradients on bolte d joint fatigue behaviour under different preloads and cyclic loads ratio. Structural Integrity and Life 14, 3 – 16. Patterson, E.A., 1990. A Comparative Study Of Methods For Estimating Bolt Fatigue Limits. Fatigue & Fracture of Engineering Materials & Structures 13, 59 – 81. Pedersen, N.L., 2013. Overall bolt stress optimization. Journal of Strain Analysis for Engineering Design 48, 155 – 165. Sorg, A., Utzinger, J., Seufert, B., Oechsner, M., 2017. Fatigue life estimation of screws under multiaxial loading using a local approach. International Journal of Fatigue 104, 43 – 51. Tanrıkulu, B., Toparli, M.B., Kılınçdemir, E., Yurtdaş, S., İnce, U., 2019. Determination of the critical socket depths of 10 .9 and 8.8 grade M8 bolts with hexagonal socket form. Engineering Failure Analysis 104, 568 – 577. Tanrıkulu, B., Toparli, M.B., Kılınçdemir, E., Yurtdaş, S., İnce, U., 2018. Effect of socket depth on failure type of fastene rs. Procedia Structural Integrity 13, 1840 – 1844. Thomala, W., Kloos, K.-H. (Eds.), 2007. Tragfähigkeit von Schraubenverbindungen bei mechanischer Beanspruchung, in: Schraubenverbindungen. Springer Berlin Heidelberg, Berlin, Heidelberg, pp. 135 – 208.