Browsing by Author "Spurrier, J."
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Item Open Access Development of a test geometry for evaluating the hydrogen cracking susceptibility of high strength GMA welding consumables(2002-09) Barbosa, P. M. R.; Spurrier, J.This thesis presents the work developed at Cranfield University through a research programme on the hydrogen cracking susceptibility of multipass girth welds of X-100 steel pipeline produced by the gas metal arc welding process (GMAW). The work aimed to develop a test geometry able to test very low hydrogen content GMAW consumables available in the market. A number of weldability' tests were studied and the Welding Institute of Canada Test (WIC) was selected as the initial configuration to be adjusted because of its simplicity and proved correlation of its results and field data in the past. A simplified one dimensional model of intensity of restraint was derived and the influence of the main geometrical parameters on the intensity of restraint was studied. The restraint length and the sectional area of the restraint plates combined with different groove preparations were employed to achieve four test configurations of successively increased severity. One particular configuration proved to generate hydrogen cracks and discriminated between the two consumables tested. Another configuration achieved to induce hydrogen and solidification cracks but was considered too much severe as it did not discriminate between those consumables. Additional adjustment of restraint length and the cross sectional area of the restraint plates in the plane perpendicular to the weld direction were performed. An optimal configuration prevented the occurrence of longitudinal cracking and induced transverse cracks typical of pipeline girth welding. This work studied a range of heat input from 0.3 to 0.6 kJ/mm. It was found that minimum values of heat input were not always the most critical for hydrogen cracking. It is suggested that there may be significant differences in the residual stress (as a result of the weld heat input) and that these stresses also influence the onset of cracking. The optimal configuration obtained was sensitive to consumables of very low hydrogen content and discriminated between the consumables tested. In order the test configuration can be validated, further tests are needed covering a wider range of consumables.Item Open Access Hyperbaric welding of duplex stainless steel pipelines offshore.(Cranfield University, 1996-01) Farrell, J.; Spurrier, J.Three duplex stainless steels (Avesta 2205, Sandvik SAF2507 and Zeron 100) were successfully welded automatically at a range of pressures from 1 to 32bar. The gas tungsten arc (GTA) welding process was chosen as it allows a high degree of control to be exercised during welding. Initial autogenous bead on plate welds established the effects of pressure on the welding process and allowed the process parameters to be determined for subsequent experiments. Analysis of the effects of pressure on the weld thermal cycle showed that at higher pressures the precipitation of phases deleterious to the weld quality was less likely than at ambient pressure. It was also found that the arc melting efficiency increased as the pressure increased, which was taken into account when the process parameters for the joints were selected. A V-butt design with a "land" on each side was chosen for the joints to counteract any tendency for the welding arc to wander at higher welding pressures. The root welds were performed using pulsed current welding techniques to overcome the difficulties in achieving consistent penetration that were encountered when welding at lower pressures. It was found that by employing standard welding consumables commonly used for welding duplex steels at ambient pressure satisfactory austenite-ferrite phase balances could be achieved in the weld metal at all pressures. Metallographic examination of the welds showed that the joints did not have any microstructural complications that were related to pressure and mechanical testing revealed that, in terms of impact toughness, the weld metal and heat affected zone (HAZ) performed as well as, if not better than, the parent plate material. This work shows that welding of duplex stainless steels using the hyperbaric welding method is a viable option for subsea operations up to a depth of at least 320m, automated hyperbaric welding being advantageous at depths greater than 40m.Item Open Access An investigation into the fatigue and corrosion fatigue properties of two high strength low alloy steels and their HAZ’s.(1992-11) Drury, J. A.; Billingham, J.; Spurrier, J.; Hockenhull, B. S.Testing was performed on three point bend specimens machined from parent plate and welded samples machined such that the crack propagated down the heat affected zone. Specimens were subjected to tension-tension loading using a stress ratio of 0.6 and a testing frequency of 0.5 Hz. Tests were performed in air and in a synthetic sea water solution. Three levels of corrosion protection were investigated, freely corroding, protected at -800 mV and over protected at -1100 mV. The resulting crack growth rate data were plotted on a log scale against the log of the stress intensity range. This made comparisons between different conditions and materials easier. Both high strength steels and the heat affected zones associated with their weldments compared favourably with BS4360:50D structural steel when tested in air and with a cathodic potential of -800 mV. Using over protection conditions the materials showed a susceptibility to hydrogen concentration. A particularly sensitive technique was used to investigate the effects of heat affected zone microstructures on the crack propagation rate. This was achieved using a continuous monitoring gauge mounted onto the side of the specimen. The gauge was used to obtain the crack length and a computer was coupled to the fatigue machine to control the applied loads. The resulting data showed that there was a variation in growth rates between different weldment regions which was in turn influenced by the weld heat input used. The other finding was that when low heat inputs were used for welding there was rapid increase in crack growth rate associated with the coarse grained region, which was attributed to the aligned carbides of this region which act to stop crack blunting. This effect was only seen in the 1.5 kJ/mm weld, higher heat inputs cause a break up of these carbides and hence the crack is able to blunt.Item Open Access Static and Dynamic Fracture of Structural Steel.(Cranfield University, 1983-11) Smith, Paul; Hancock, P.; Spurrier, J.The present study is concerned with the assessnent of structural steel fracture toughness, as close to real service loading conditions as practically possible in the laboratory, using small scale specimens. The effects of stored strain energy content is evaluated for slow-static and dynamic COD tests for maximum load and cleavage instability. The literature reviews elastic-plastic fracture mechanics and goes on to study the effect of stored strain energy, the COD technique and dynamic testing procedures presently available. Static and dynamic fracture toughness testing using the COD technique is carried out on BS4360 - 50D structural steel in its normalised state. The testing procedures used closely relate to either the BS5762 COD standard or BS5447 plane strain standard. The specimen size tested is 2B =U= 24 mn, with a fatigue notch size of approximately a/W between 0.48 and 0.57. Photographic-macros and SEM fractography were carried out after the specimens were tested to assess the micromechanism processes operative during a fracture test. It is believed the present work is of special significance to determinate structural design using structural steel, for example with liquefied gas pressure vessels. The resulting test data available from this thesis is envisaged to be the closest approach to real service "true limit severity", and consequently is beneficial to fracture prevention technology.