Beam Design Calculator as per IS 456 2000

Beam Design Calculator as per IS 456 2000

Introduction to RCC Design

Construction uses Reinforced Concrete Cement (RCC) extensively because of its strength, durability, and adaptability. RCC design calls for careful planning and respect to guidelines provided by several regulatory agencies. IS Code 456-2000 is one such standard that offers instructions for the planning and building of RCC constructions.

Key Parameters in Singly Beam Design

Calculating the amount and distribution of loads on a beam is known as load calculation.

  • Material Properties: Comprehending the traits of steel reinforcement and concrete.
  • Support Conditions: Examining the beam's end-to-end support.
  • Length of the beam between its supports is known as its span.
  • Assessing the internal forces operating on the beam using shear and moment forces.

Steps in Singly Beam Design

  • Analysis: Ascertain the support conditions and loads.
  • Section Design: Choose the right proportions and cross-sectional shape.
  • Determine the necessary quantity and configuration of reinforcing steel in the reinforcement design.
  • Verify the beam's deflection to make sure it stays within allowable bounds.
  • Detailing: Create drawings that include building methods and reinforcing details.

Significance of Doubly Beam Design

For constructions with increased load-bearing capacity and resistance to bending moments, double beam design is crucial.

Critical Aspects of Doubly Beam Design

  • Flexural strength is the capacity to bear bending pressures without breaking.
  • Shear Resistance: The ability of a beam to withstand shear forces that act perpendicular to its longitudinal axis.
  • Resistance to twisting under applied loads is known as torsional stability.
  • Serviceability: Making sure the beam satisfies requirements for crack control and deflection.

Design Procedure for Doubly Beam

  • Analyze: Establish span lengths, loads, and support conditions.
  • Moment Distribution: Using the proper techniques, compute moments and shears along the length of the beam.
  • Section Selection: Using the computed moments and shears as a guide, select an appropriate beam section.
  • Design reinforcement taking into account torsion, shear, and bending is known as reinforcement detailing.
  • Check for Deflection: Compare the beam's deflection to the given limitations.
  • Construction Specifications: Give precise directions on how to carry out the design on location.

This post will provide the Beam Design Calculator as per IS 456 2000 which can design singly as well as doubly rainforced beam based on the IS 456 2000. The detailed input were considered in this calculator. The Beam Design Calculator as per IS 456 2000 you needs to provide input such as size of beam, clear cover, concrete grade, steel grade. 

Watch the below video and understand the use of calculator for design of singly and doubly RCC beam design.

Beam Design Calculator

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