Plastic Collaspe Flashcards
What happens in plastic collapse?
A hinge forms where a crack would have
Shear bands form at 45degrees to the load
What is flow stress?
The average of the yield stress and UTS
Why are residual stresses a problem?
Whilst they are in balance, in certain orientations of loading they are additive with the load
What assumptions are made in plastic collapse analysis?
-The material is perfectly plastic
-Small deformity theory can be applied to the structure (ie must be used on materials like steel, and not rubber)
Which basic relations must be satisfied for the deformation of the structure to find the exact solution?
-Stress equilibrium and yield criterion (e.g. von Mises)
-Constitutive relation (stress as a function of strain)
-Strain compatibility
Why are the lower and upper bound theories used?
To find a range for the solution
What foes the lower bound solution assume?
Stress equilibrium only
What does the upper bound solution assume?
A deformation failure mode must be assumed that satisfies the compatibility equations
What equation gives the critical plastic collapse load?
Pcritical = B(W - a)*sigmaY
Area of ligament x yield stress
What equation gives critical stress for plastic collapse in the lower bound tension solution?
sigmacritical = ((W - a)/W)*sigmaY
What does the upper bound solution do/give?
-Equates the internal energy to external work done
-Solution is either correct or too high
What is the equation for the critical moment in the lower bound bending solution?
Mcritical = 0.25B((W - a)^2)*sigmaY
What is the equation for the critical moment in the upper bound bending solution?
Mcritical = 0.39B((W - a)^2)*sigmaY