Thin Cylinders, Spheres and Thick Cylinders - Strength of Materials
Subject and UNIT: Strength of Materials: Unit V: Thin Cylinders, Spheres and Thick Cylinders
Increase in diameter due to internal pressure may be found as follows,
Thin Cylinders, Spheres and Thick Cylinders - Strength of Materials
Subject and UNIT: Strength of Materials: Unit V: Thin Cylinders, Spheres and Thick Cylinders
A thin spherical shell of internal diameter d and wall thickness 't' subjected to an internal fluid pressure 'p' as shown in Fig.5.5.
Thin Cylinders, Spheres and Thick Cylinders - Strength of Materials
Subject and UNIT: Strength of Materials: Unit V: Thin Cylinders, Spheres and Thick Cylinders
Due to internal pressure, the cylindrical shells are subjected to lateral and linear strain.
Circumferential or hoop stress, Longitudinal stress
Subject and UNIT: Strength of Materials: Unit V: Thin Cylinders, Spheres and Thick Cylinders
When the pressure inside the cylinder is developed, the cylinder walls are subjected to tensile stresses. There are two types of tensile stresses developed according to the direction in which they are acting.
Introduction
Subject and UNIT: Strength of Materials: Unit V: Thin Cylinders, Spheres and Thick Cylinders
Generally, the thin cylindrical and spherical shells are used to contain fluids or gas such as in tanks, boilers, compressed air receivers, pipes, pump cylinders, etc.
Deflection of Beams - Strength of Materials
Subject and UNIT: Strength of Materials: Unit IV: Deflection of Beams
When an elastic material is deformed due to application of external force, internal resistance is developed in the material of the body.
Deflection of Beams - Strength of Materials
Subject and UNIT: Strength of Materials: Unit IV: Deflection of Beams
Two mark Questions and Answers: Deflection of Beams - Strength of Materials
Deflection of Beams - Strength of Materials
Subject and UNIT: Strength of Materials: Unit IV: Deflection of Beams
Deflection of Beams : Deflection of Beams - Strength of Materials
introduction
Subject and UNIT: Strength of Materials: Unit IV: Deflection of Beams
The cross-section of a beam must be strong enough to resist the bending and shear stresses which are produced by various loads. This criterion is called strength criterion.
Torsion - Strength of Materials
Subject and UNIT: Strength of Materials: Unit III: Torsion
Two Marks Questions with Answers: Torsion - Strength of Materials
Torsion - Strength of Materials
Subject and UNIT: Strength of Materials: Unit III: Torsion
Anna University Solved Problems: Torsion - Strength of Materials
Torsion - Strength of Materials
Subject and UNIT: Strength of Materials: Unit III: Torsion
We may divide the springs mainly into two categories: 1. Torsion spring 2. Bending spring