- Cylindrical Shell Under Edge Moment
Calculate the tangential stress at point E of the cylindrical shell under uniform edge moment on side DC of 1.0 KNm / m.
- Elliptic Membrane Under Pressure
Calculate the normal SY stresses at point D of an elliptic membrane under a uniform outward pressure of magnitude 10 MPa.
- Tapered Geometry - Edge Loading
Determine the stress at B of a tapered geometry constrained along the inner edge AC and subjected to the following loading conditions along the outer edge DE:
- Axisymmetric Cylinder Sphere under Internal Pressure
Determine the hoop stress at point B of the axisymmetric cylinder sphere subjected to a uniform internal pressure of 1 MPa. All dimensions are in m. The radius of the sphere and cylinder are both 1m. Point B is located ~0.1m below the junction between the cylinder and the sphere.
- Skew Plate under Normal Pressure
Calculate the maximum principal stress at the center E of a skew plate under a normal pressure of 0.7 KPa.
- Cylindrical Shell under Pressure Load
Calculate the tangential stress at point E of the cylindrical shell under uniform normal pressure of 0.6 MPa and tangential normal pressure of 60 MPa on edge DC.
- Z-Section Cantilever Under Torsion Bending
Calculate the normal SZ stress at point A of the cantilever under torque of 1.2 MNm applied at the end.
- Tapered Geometry - Gravity Loading
Determine the stress at B of a tapered geometry constrained along the inner edge AC and subjected to the following loading conditions along the outer edge DE:
- Radial Loading of Circular Membrane
Determine the stress SY at D of a circular membrane with zero hoop displacements on edges AB and CD and subjected to the following loading conditions:
- Hemisphere Under External Pressure
Calculate the radial displacement at point G of a shell hemisphere under external uniform pressure of magnitude 0.001 MPa directed radially inwards.
- Hemisphere Under Point Loads
Calculate the X displacement at point A of the hemisphere due to concentrated radial loads of magnitude 2 KN applied outwards at point A and inwards at point C. The sphere has a radius of 10 m.
