SHIP LOAD DIAGRAMS A ship may be regarded as : Non-uniform beam

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Presentation transcript:

SHIP LOAD DIAGRAMS A ship may be regarded as : Non-uniform beam Carrying non-uniformly distributed weights Having varying degrees of support along its length The load curves are best accurate when the ship is in still water and no dynamic forces are acting on it

STILL WATER BENDING Consider a loaded ship lying in still water : The up-thrust at any one metre length of the ship depends upon the immersed cross-sectional area of the ship at that point If the values of up-thrust at different positions along the length of the ship are plotted on a base representing the ship’s length, a BOUYANCY CURVE is formed.

BUOYANCY CURVE This curve increases from zero at each end to a maximum value in way of the parallel mid-ship portion. The area of this curve represents the total up-thrust exerted by the water on the ship.

WEIGHT CURVE The total weight of the ship consists mainly of the steel structure, items of machinery and cargo. But, the actual weight at various points along the length of the ship is unevenly distributed. This is represented by the WEIGHT CURVE

WEIGHT CURVE The weight curve starts and finishes at the extremes of the ship’s structure

LOAD CURVE The buoyancy or the weight along the length of the ship need not be uniform. At various points along the ship’s length there may be an excess of buoyancy or an excess of weight. Hence: Difference (weight-buoyancy) = resultant load

LOAD CURVE The total weight must be equal to the total buoyancy resulting in the ship floating at a particular draught. Hence : Area of the load diagram above the base line = Area below the base line.

SHEAR FORCE CURVE Due to the unequal loading of the ship vertical shear forces are set up on the ship. It is in effect the area of the load diagram to the point considered.

BENDING MOVEMENT CURVE The loading of the ship’s structure will also tend to bend it. The bending moment at any point is the sum of the various moments to one side or the other. At any section the moment is represented by the area of the shear force diagram to the point considered

BENDING MOVEMENT CURVE Maximum bending moment occurs when the shear force is zero.