Issue 29

M. Marino et alii, Frattura ed Integrità Strutturale, 29 (2014) 241-250; DOI: 10.3221/IGF-ESIS.29.21 250 [2] Counts, W.A., Johnson, W.S., Bolt pin-bearing fatigue of polymer matrix composites at elevated temperature, International Journal of Fatigue, 24 (2002) 197–204. [3] Xiao, Y., Ishikawa, T., Bearing strength and failure behaviour of bolted composite joints (part I: experimental investigation), Composites Science and Technology: Engineering, 65 (2005) 1022–1031. [4] Xiao, Y., Ishikawa, T., Bearing strength and failure behaviour of bolted composite joints (part II: modelling and simulation), Composites Science and Technology: Engineering, 65 (2005) 1032–1043. [5] Vangrimde, B., Boukhili, R., Pin-bearing stiffness of glass fibre-reinforced polyester: influence of coupon geometry and laminate properties, Composites Structures, 58 (2002) 57–73. [6] Vangrimde, B., Boukhili, R., Descriptive relationships between pin-bearing response and macroscopic damage in GFRP bolted joints, Composites Part B: Engineering, 34(8) (2003) 593–605. [7] Vangrimde, B., Boukhili, R., Analysis of the pin-bearing response test for polymer matrix composite laminates: pin- bearing stiffness measurements and simulation, Composite Structures, 56 (2002) 359–374. [8] Li, R., Kelly, D., Crosky, A., Strength improvement by fibre steering around a pin loaded hole, Composite Structures, 57 (2002) 337–383. [9] Ascione, F., Feo, L., Maceri, F., An experimental investigation on the pin-bearing failure load of glass fibre/epoxy laminates, Composites Part B: Engineering, 40 (2009) 197–205. [10] Ascione, F., Feo, L., Maceri, F., On the pin-bearing failure load of GFRP bolted laminates: An experimental analysis on the influence of bolt diameter, Composites Part B, 41 (2010) 482–490. [11] Barbero, E.J., Introduction to composite materials design, Taylor & Francis (1998). [12] Kollar, L.P., Springer, G.S., Mechanics of Composite Structures, Cambridge University Press (2009). [13] Rotem, A., Prediction of laminate failure with the Rotem failure criterion, Composites Science and Technology, 58 (1998) 1083–1094. [14] Huang, Z.M., A bridging model prediction of the ultimate strength of composite laminates subjected to biaxial loads, Composites Science and Technology, 64 (2004) 395–448. [15] Huang, Z.M., A unified micromechanical model for the mechanical properties of two constituent composite materials, part V: laminate strength, Journal of Thermoplastic Composite Materials, 13 (2000) 190–206. [16] Grote, K.H., Antonsson, E.K., Springer Handbook of Mechanical Engineering, Springer-Verlag (2009). [17] Campbell, F.C., Structural Composite Materials, ASM International (2010).