Glass fabric fatigue

Owen MJ, Griffiths JR. Evaluation of biaxial stress failure surfaces for a glass fabric reinforced polyester resin under static and fatigue loading. J Mater Sci 1978 13(7) 1521-37. 

Amijima S, Fujii T, Hamaguchi M. Static and fatigue tests of woven glass fabric composite under biaxial tension—torsion loading. Composites 1991 22(4) 281—9. 

Fujii T, Lin F, Morita Y. Fatigue behavior of plain woven glass-fabric laminates under tension/torsion combined loading (Effect of shear stress and cyclic condition on fatigue failure). Nippon Kikai Gakkai Ronbunshu, A Hen/Trans Jpn Soc Mech Eng Part A 1994 60 650—7 [in Japanese]. 

Fujii T, Lin F. Fatigue behavior of a plain-woven glass fabric laminate under tension/ torsion biaxial loading. J Compos Mater 1995 29(5) 573—90. 

Kawakami H, Fujii T, Morita Y. Fatigue degradation and hfe prediction of glass fabric polymer composite under tension/torsion biaxial loadings. J Reinf Plast Compos 1996 15 183-95. 

Inoue A, Fuji T, Kawakami H. Effect of loading path on mechanical response of a glass fabric composite at low cyclic fatigue under tension/torsion biaxial loading. J Reinf Plast Compos 2000 19(2) lll-23. 

The fatigue behaviour of the woven fabric shows that this textile structure is sensitive to fatigue loading. This sensitivity is confirmed by testing thermoplastic matrix systems (polyamide 12, PA 12) reinforced with a glass fabric. A strong stiffness reduction, with a pronounced creep deformation was observed under tension-tension fatigue [24]. 

The influence of aggressive fluids on the secant modulus of 0°-oriented specimens is shown in Fig. 5.21. The maximum stress per cycle during fatigue was 120 MPa. As the glass fabric was oriented in the direction of principal stress, the loss in secant modulus was less pronounced than for the 45°-orientation of the fabric. In air and hydraulic fluid the secant modulus decreased only slightly, while in MEK the composite failed after 30000 load cycles. 

J Wendorff, Ch Baron and K Schulte, The fatigue behaviour of glass fabric reinforced thermoplastics (in German), Kunststoffe 1995 12 2058-2060. 

Owen, M.J. and Formd, M.S., The fatigue behaviour of glass fabric reinforced polyester resin under off axis loading. Journal of Physics, 8,1975. 

The importance of stress amplitude during fatigue is quite marked for this type of reinforcement (combination glass fabric). The difference between matrix dominated and fibre dominated properties is determined by the presence of a knee point in a static load/deflection test (Figure 1.5(c)). The average loss in strength per decade of cycles approaches 10%, which is typical of glass-reinforced plastics. 

Sims, G.D. and Gladman, D.G. (1978) Effect of test conditions on the fatigue strength of a glass fabric laminate — Part (A), frequency, Plastics and Rubber Materials and Applications 1, 41—8. 

Fatigue of Glass-Fiber Reinforced Plastics (GRP). NOL rings of 6-inch outer diameter and 0.25-inch width were fabricated from 12 single... 

Owen MJ, Rice DJ, Griffiths JR, Found MS. Biaxial static and fatigue strength of glass mat and fabric reinforced polyester resins. In 35th annual technical conference. Reinforced Plastics/Composite Institute. The Society of the Plastics Industry 1980. 23-E ... 

Fujii T, Shina T, Okubo K. Fatigue notch sensitivity of glass woven fabric composite having a circular hole under tension/torsion biaxial loading. J Compos Mater 1994 28(3) 234-51. 

Figure 7.28 Fatigue data of 181 glass fiber fabric/TS polyester (fiberglass), steel, graphite fiber fabric/epoxy, and aluminum...

---