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Tensile Stress in Riveted Plate is the stress developed into the plate joined by the riveted joint due to the tensile load acting onto it. It represents the force per unit area that the plate material experiences when subjected to stretching forces.
The calculator uses the formula:
Where:
Explanation: The formula calculates the tensile stress by dividing the tensile resistance by the effective cross-sectional area of the plate between two rivets.
Details: Accurate tensile stress calculation is crucial for designing safe and efficient riveted joints in structural applications. It helps ensure that the plate material can withstand the applied tensile loads without failure.
Tips: Enter all values in appropriate units (N for force, m for length dimensions). Ensure that pitch of rivet is greater than diameter of rivet. All values must be positive numbers.
Q1: What is tensile resistance of plate per rivet pitch?
A: It is defined as the maximum load that the riveted plate material can support without fracture when being stretched.
Q2: How is pitch of rivet defined?
A: Pitch of Rivet is defined as the distance between the centers of adjacent rivets that hold together the parts of a built member.
Q3: What factors affect tensile stress in riveted plates?
A: Material properties, rivet spacing, plate thickness, and applied load all affect the tensile stress in riveted plates.
Q4: When is this calculation particularly important?
A: This calculation is critical in structural engineering applications where riveted joints are subjected to tensile loads, such as in bridges, buildings, and mechanical assemblies.
Q5: What safety factors should be considered?
A: Appropriate safety factors should be applied based on the application, material properties, and loading conditions to ensure structural integrity.