# Steel Checks to IS 800
The steel design check supports the IS 800 1984 and 2007 working stress method editions.
# Input data and requirements
All cases provided to the checker are assumed to be working loads.
IS800:1984 does not use Max Plastic/Elastic Ratio specified in the design property.
For Member Restraints, IS800:1984 interprets connection A and B in the following manner.
- For angle sections A and B stand for longer, shorter leg respectively. Where both legs are connected, both A and B should be set.
- For I and RHS sections, A stands for the web and B for flange.
# Local Checks
Following Local checks or Section checks are carried out at each end of each subspan.
Shear strength check
Shear is checked only for unstiffened webs. A warning is generated if the web is slender as per IS800:1984 6.7.3.1. Shear is check to Clause 6.4.1 and 6.4.2.
Torsion checks
At present, any significant torsional moment (greater than 5% of the torsional capacity) causes a warning, because torsion is not explicitly catered for by the code. See BS5950-1:2000 local checks for details.
Bearing capacity checks
At present, bearing capacity checks are ignored.
Axial and bending strength checks
Axial tensile, compressive and bending strength checks are carried as per section 4, 5 and 6 of IS800:1984 respectively without considering the effect of buckling (only local).
Combined local effects
The section is checked against all the applied forces (except bearing) using the appropriate equations in IS800:1984 7.1.1.b, 7.1.2 and 7.1.4.
# Buckling Checks
Following Buckling checks or member checks are carried out at for every member. See BS5950-1:2000 buckling checks for details.
Major and Minor axis axial buckling strength check
Axial compression strength checks will be carried along major axis and minor axis as per the section 5 of IS800:1984.
Lateral Torsion buckling strength check
The member is checked against lateral torsion buckling strength as per IS800:1984 6.2.3 and 6.2.4.
Buckling interaction strength check
These checks are carried out for the appropriate equations stipulated in section 7 of IS800:1984.
# IS800:2007 (Working stress method)
The input data requirements and checks that are the similar to for BS5950-1:2000. See BS5950-1:2000 for more details
Effective Net Area Factor (
The rupture strength of a section connected through one or more elements of section is affected by shear lag. To comply with IS800:2007 6.3.3 and 6.3.4, the Effective net area factor (Beta) is used to compute the design tensile strength of such sections to account for tearing of net section.