The paper considers the assessment of uncertainties of the ship hull steel weight with respect to uncertainties of built-in steel products. First, a general procedure for worst-case approach based on tolerances is presented. A review of tolerances on rolled plates and sections provided for shipbuilding, according to the Classification Societies, international standards as well as the tolerances defined by the steelworks, are given herein. Using tolerances of plates and sections, the deviations of weights of the hull, structural parts and substructures from the nominal weights are assessed by application of the worst-case approach. Additionally, the influence of the geometrical tolerance in production, like cutting, welding and other workmanship, on the weights of the ship hull has been checked. Five typical stiffened panel types, most frequently used in the ship construction are subject to weight deviation analysis. Next, a typical bulk carrier midship section has been investigated from weight deviation point of view. Finally, for a bulk-carrier built in Croatian shipyards, a review of overall ship hull weight distribution, according to plate thickness and dimensions of sections as well as the maximal possible deviations of the nominal weights due to tolerances, are summarised.
The assessment of ship hull weight uncertainty
Abschätzung der Unsicherheit von Schiffsrumpfmassen
1998
6 Seiten, 2 Bilder, 5 Tabellen, 8 Quellen
Conference paper
English
Schiffsrumpf , Masse (physikalische Größe) , Abschätzung , Stahl , Näherung , Toleranz , Schiffbau , Klassifikation , Norm , Platte (Bauteil) , Schneiden , Schweißen , Versteifung , Frachtschiff , Massengut , Unsicherheit , Unterbau
The Assessment of Ship Hull Weight Uncertainty
British Library Conference Proceedings | 1998
|Comparative method of estimating Hull weight of ship
Engineering Index Backfile | 1934
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