14 research outputs found
Pull-out fibers from composite materials at high rate of loading
Numerical and experimental results are presented on the pullout phenomenon in composite materials at a high rate of loading. The finite element method was used, taking into account the existence of a virtual shear deformation layer as the interface between fiber and matrix. Experimental results agree well with those obtained by the finite element method. Numerical results show that the interlaminar shear stress is time dependent, in addition, it is shown to depend on the applied load time history. Under step pulse loading, the interlaminar shear stress fluctuates, finally decaying to its value under static loading
Nonlinear Behavior of Plain Woven G. F. R. P. Under Repeated Biaxial Tension/Torsion Loading
Fatigue strength of glass-reinforced plastics (GRP) in shear in the plane of reinforcement
Static and fatigue tests of a woven glass fabric composite under biaxial tension-torsion loading
Analysis of stress in FRP bonded joints
60.00; Translated from Japanese (Nihon Fukugo Zairyo Gakkai-Shi 1987 v. 13(3) p. 116-125)Available from British Library Document Supply Centre- DSC:9022.0601(BISI-EM-Trans--84)T / BLDSC - British Library Document Supply CentreSIGLEGBUnited Kingdo