Design of Steel Structures as per IS 800
Design of Connections, Tension, Compression and Flexural members
Ratings 4.37 / 5.00
What You Will Learn!
- Structural steel members design as per IS 800 standards.
- Application of IS800 code concepts
- Design of tension members, compression members, laterally restrained and unrestrained beams, beam columns – members subjected to combined axial and
- Steel Connection Design: Bolt Shear, Bolt Tension, Rupture, Block Shear
Description
This course is designed to introduce Steel structural members design according to the limit states design as per IS800 standards. The basic principles of steel structural design are explained using typical example problems with figures, tables. The examples are illustrated with behavior and design of bolted connection, tension members, compression members, laterally restrained and unrestrained beams, beam columns – members subjected to combined axial and bending forces. Students are expected to obtain the knowledge on principles and design of steel structural elements by end of this course. A preliminary knowledge on structural analysis is required before going to this course.
The Major topics covered in this course is Bolt Shear, Bolt Tension, Rupture, Block Shear in Connection design, Net area, Tension Yield, Tension Rupture, Tension Block Shear in Tension design, Section classification, buckling curve, slenderness ratio in Compression design, Laterally restrained and Laterally unrestrained members in Beam design, finally combined forces like axial force with bending moment covered in Beam column design.
Contents:
Introduction to Steel Structures
Introduction to Steel Structures
Introduction to Steel sections, Section classifications and Steel material
Chapter 2: Steel Connection design
Introduction to connection design
Bolt Shear capacity
Bolt Tension Capacity
Rupture and Block shear calculations
Gusset Plate connection
Worked examples
Chapter 3: Tension member design
Introduction to Tension member design
Net area calculations
Tension Yield capacity calculations
Tension Rupture capacity calculations
Tension Block Shear capacity calculations
Worked examples
Chapter 4: Compression member design
Introduction to Compression member design
Worked examples
Chapter 5: Beam Design
Introduction to Beam design
Laterally Restrained Beam design
Laterally Unrestrained beam design
Worked examples
Chapter 6: Beam Column Design
Combined Axial Force and Bending moment 9.3.1
Combined Axial Force and Bending moment 9.3.2.2
Who Should Attend!
- Civil Engineers, Structural Engineers
