civil

STAAD PRO

STAAD is nothing but Structural Analysis And Design. STAAD Pro programming is broadly utilized as a part of the structural analysis and designing structures – towers, buildings, bridges, transportation facilities, utility and industrial structures. Designs can include building structures incorporating culverts, petrochemical plants, bridges, tunnels, piles; and construction materials such as timber, steel, concrete, aluminum and cold-formed steel.

    Staadpro Syllabus

  • Introduction of Staad.Pro
  • Starting Staad.Pro
  • Creating New file
  • Opening Existing File
  • Closing a file
  • Saving & Saving As
  • Module Review
  • Salient Features
  • Hardware Requirements
  • Staad.Pro Screen information
  • Overview of Structural Analysis and Design
  • Types of Structures
  • Idealization of Structures
  • Various Unit Systems
  • Coordinate Systems
  • Global Coordinate System
  • Local Coordinate System
  • Staad Commands and Input Instructions
  • Command Formats
  • Free Formatting Input
  • Commenting Input
  • Meaning of Underlining in the Manual
  • Problem Initiation and Title
  • STRUCTURAL MODELING

  • What are Nodes, Beams, and Plates
  • How things are done in the Input File
  • Geometry Creation Methods
  • Using Structure Wizard
  • Things you can do in Structure Wizard
  • Drafting the Geometry using a Snap / Grid
  • Viewing
  • Selecting
  • Using Selecting While viewing 3D Geometry
  • Joint Coordinate Specification
  • Graphical User Interface
  • Member Incidence Specification
  • Graphical User Interface
  • OTHER USEFUL FUNCTION TO COMPLETE THE GEOMETRY

  • Introduction
  • Translation Repeat
  • Circular Repeat
  • Insert Node
  • Add Beams between midpoints
  • Add beams by perpendicular intersection
  • Connect beams along an Axis
  • Cut Section
  • Undo / Redo
  • Dimensioning
  • PROPERTY DETAILS

  • Material Specification
  • Material Constants
  • Constant Specifications
  • Member Property Specifications
  • Prismatic Property Specifications
  • Tapered Member Specifications
  • Specifying Properties from Steel Table
  • User Table Specifications
  • Member Orientation Specifications
  • Beta Angle
  • MEMBER

  • Inactive / Delete Specifications
  • Listing of Members / Joints by Specifications of Groups
  • Member Offset
  • Member Release Specifications
  • Member Truss Specifications
  • Member Tension / Member Compression Specifications
  • Global Support Specifications
  • Fixed / Pinned / Fixed but Release / Spring Supports
  • Inclined Supports
  • Curved Member Specifications
  • Member Cable Specifications
  • LOADING PARTICULARS

  • Loading Specifications
  • Self weight Loading Specifications
  • Member Load Specifications
  • Area Load / Floor Load Specifications
  • Area Load
  • Floor Load
  • Load Combination Specifications
  • ANALYSIS

  • Analysis Specifications
  • Print Specifications
  • Pre Analysis Print Commands
  • Post Analysis Print Commands
  • Load List Specifications
  • Report Generation
  • Output file
  • POST PROCESSING

  • Introduction
  • First Steps
  • Node Displacement
  • Node Reactions
  • Beam forces
  • Beam Stresses
  • Beam Graphs
  • Plate Contour
  • Plate Results Along line
  • Animation
  • Reports
  • R.C. DESIGN

  • Concrete Design As per IS 456
  • Design Parameters
  • Design of Beams
  • Design for Flexure
  • Design for Shear
  • Design of Columns
  • Concrete Design Specifications
  • Concrete Design Parameter Specification
  • Concrete Design Command
  • Concrete Take of
  • Concrete Design Terminator
  • Interactive Design
  • Beam Brief
  • Column Brief
  • STEEL DESIGN

  • Steel Design As per IS 800
  • Allowable Stresses
  • Axial Stresses
  • Bending Stresses
  • Shear Stress
  • Combined Stress
  • Parameter Specifications
  • Code Checking Specifications
  • Member Selection Specifications
  • Tabulated Results Of Steel Design
  • Interactive Designs
  • SEISMIC ANALYSIS

  • Introduction to Seismic analysis
  • Earthquake loading in high rise buildings
  • Implementation of various load combinations of Earthquake analysis using IS 1893
  • Analysis and Design of building considering Earthquake loading
  • WIND LOAD ANALYSYS

  • Introduction to Wind load analysis
  • Calculation of wind forces in High rise building
  • Analysis and Design of building for Wind loading
  • DESIGN OF ELEVATED WATER TANKS

  • Modeling of Intz tank, circular tank, rectangular tank
  • Hydro Static loading in these tanks
  • Analysis and Design of these tanks
  • DESIGN OF SLABS

  • Introduction to Slabs
  • Design of Slabs using IS 456
  • Modeling of 1 way , 2 way and Cantilever Slab using Staad.Pro
  • Analysis and Design of these Slabs using Staad.Pro