Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 16, Parts 2-3American Society of Mechanical Engineers, 1997 - Arctic regions |
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Page 276
... aluminium structures and to promote the use of aluminium alloys , as compared to 4 % used by the aerospace industry . The merits as well as challenging problems of applying aluminium alloys in ship hulls call for more extensive research ...
... aluminium structures and to promote the use of aluminium alloys , as compared to 4 % used by the aerospace industry . The merits as well as challenging problems of applying aluminium alloys in ship hulls call for more extensive research ...
Page 277
... aluminium alloys for ships may be found in DNV ( 1993a ) . MECHANICAL PROPERTIES Aluminium alloy is a strong material . At ambient temperature , maximum yield and tensile strengths of aluminium alloys are comparable to those of low ...
... aluminium alloys for ships may be found in DNV ( 1993a ) . MECHANICAL PROPERTIES Aluminium alloy is a strong material . At ambient temperature , maximum yield and tensile strengths of aluminium alloys are comparable to those of low ...
Page 280
... aluminium has a much longer residual life for a given crack length than high strength steel . Secondly , for most aluminium alloys the S - N curve does not exhibit the distinctive horizontal position ( giving a fatigue limit ) that most ...
... aluminium has a much longer residual life for a given crack length than high strength steel . Secondly , for most aluminium alloys the S - N curve does not exhibit the distinctive horizontal position ( giving a fatigue limit ) that most ...
Contents
SPECTRAL MODELLING OF WAVES | 1 |
RISK ANALYSIS | 33 |
PROBABILISTIC MODELLING OF WAVES | 99 |
Copyright | |
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alloys aluminium analysis applied ASME assessment base metal bending brittle fracture calculated coefficient corrosion fatigue crack arrestability crack depth crack growth crack tip CTOD curve damage defects deformation dent Det Norske Veritas developed distribution dynamic earthquake effect energy Engineering equation estimated evaluated factor failure fatigue crack Figure fracture mechanics fracture toughness frequency function heat increase initiation inspection Japan maintenance martensitic material maximum mbar measured mechanical properties method notch observed obtained offshore structures OMAE parameters peening performed pipe plastic platform prediction pressure procedure ratio reliability response risers S-N curve safety sea water seismic shielding gas ship shown in Fig simulation single-sided welds specimens spectra spectrum statistical steel plate strain stress range surface Table temperature tensile toughness tubular underwater underwater welding vertical wave height Weibull distribution weld metal welded joints width yield strength yield stress