Table of Contents

Part 1 Welded joints: corrosion fatigue of large welded tubular joints, J. Kerr et al; effects of temperature and dissolved oxygen in seawater on the fatigue strength of welded steel joints, H. Ouchi et al; corrosion-fatigue tests of welded tubular "T" joints under variable amplitude loading, W.P. Sham et al; corrosion-fatigue crack growth rate in a C-Mn steel and in its welded joints in seawater, L. Bertini; the effects of stress waveform and frequency on fatigue crack growth rates in a steel immersed in seawater, H. Ouchi et al; a quantitative determination of crack closure effects on fatigue properties of cathodically protected steel in seawater, E. Bardal et al; the relative severity of natural and synthetic seawaters on the fatigue behaviour of cathodically protected steel, C.C. Monahan and R.M. Hopkins; the influence of hydrogenating environments on crack propagation in metals, V.V. Panasyuk and V.S. Kharin; the relative importance of crack-tip charging and bulk charging in hydrogen - assisted cracking in aqueous solutions, A. Turnbull et al; corrosion fatigue crack propagation in a Duplex stainless steel, M.C. Mayaki and J.E. King; polarization experiments with constant K for the examination of competing environmental mechanisms in corrosion fatigue, D.M. Shutter and I.M. Austen; corrosion fatigue crack retardation and enhancement and fracture surface reconstruction technique, K. Komai; the influence of environment on fatigue crack growth mechanisms, A. Bignonnet et al; interactions of temper embrittlement and environment during fatigue of pressure vessel steels, C.A. Hippsley and S.G. Druce; effects of environment on the occurence of intergranular facets during fatigue crack propagation in 9Cr-1Mo steel, K. Nishioka and J.F. Knott; environment-assisted aerospace fatigue problems in the Netherlands, R.J.H. Wanhill; influence of moisture on the crack propagation in A1-Zn-Mg single crystals, H.J. Gudladt et al; the corrosion fatigue behaviour of an aluminium-lithium alloy, G.S. Chen and D.J. Duquette; the role of surface microcracks in aqueous corrosion fatigue damage, T. Magnin. Part 2 Corrosion fatigue endurance and short crack growth: the corrosion fatigue of a 13 percent chronium turbine blade steel in a condensing steam environment, J. Congelton and T.P. Wilks; two-dimensional film opening model for pit generation in the corrosion fatigue crack initiation process of a ferritic stainless steel, Y. Kimura et al; the environmental performance of higher strength steels for offshore applications, I.S. Cole et al; the initiation and propagation of fatigue cracks under the influence of fretting in 0.64C roping steel wires in air and seawater, M. Takeuchi and R.B. Waterhouse; the role of corrosion in the initiation and growth of corrosion fatigue cracks, R.A. Cottis et al; influence of cathodic protection on the initiation and growth of small cracks in steel under fatigue loading in seawater, E. Maahn and H.P. Nielsen.