DESIGN OF RIVETED JOINTS: Types of riveted joints Design of riveted joints Boiler shell riveting design Eccentric loading design of riveted joints DESIGN OF BOLTED JOINTS: Forms of Screw threads Stresses in Screw fasteners Design of bolts with pre- stresses Design of bolted joints under eccentric loading Bolts of uniform strength
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DESIGN OF RIVETED JOINTS:Types of riveted jointsDesign of riveted jointsBoiler shell riveting design Eccentric loading design of riveted jointsDESIGN OF BOLTED JOINTS: Forms of Screw threads Stresses in Screw fastenersDesign of bolts with pre-stressesDesign of bolted joints under eccentric loading Bolts of uniform strength
Methods of Riveting
Material of Rivets
The material of the rivets must be tough and ductile. They are usually made of steel (low carbon steel or nickel steel), brass, aluminium or copper, but when strength and a fluid tight joint is the main consideration, then the steel rivets are used.
Types of Rivet Heads
Types of Riveted Joints
1. Lap joints a) Single lap joint b) Double lap joint. c) triple lap joint. i) Chain riveting. ii) Zig-zag riveting.
2. Butt joints
a) Single strap butt joint b) Double strap butt joint. c) triple strap butt joint. i) Chain riveting. ii) Zig-zag riveting.
Important Terms Used in Riveted Joints:The following terms in connection with the riveted joints are important from the subject pointof view :
1. Pitch. It is the distance from the centre of one rivet to the centre of the next rivet It is usually denoted by p.2. Back pitch. It is the perpendicular distance between the centre lines of the successive rows. It is usually denoted by Pb.3. Diagonal pitch. It is the distance between the centres of the rivets in adjacent rows of zig-zag riveted joint. It is usually denoted by Pd.4. Margin or marginal pitch. It is the distance between the centre of rivet hole to the nearest edge of the plate. It is usually denoted by m.
Caulking and Fullering
Failures of a Riveted Joint
Failures of a Riveted Joint
1. Tearing of the plate across a row of rivets.2. Shearing of the rivets3. Crushing of the plate or rivets4. Tearing of the plate at an edge
1. Tearing of the plate across a row of rivets
2. Shearing of the rivets
When the shearing resistance (Ps) is greater than the applied load (P) per pitch length, then this type of failure will occur.
3. Crushing of the plate or rivets
4. Tearing of the plate at an edge
A joint may fail due to tearing of the plate at an edge. This can be avoided by keeping the margin,