STAAD stands for Structural Analysis And Design. STAAD.Pro software is widely used in analyzing and designing structures – buildings, bridges, towers, transportation, industrial and utility structures. Designs can involve building structures including culverts, petrochemical plants, tunnels, bridges, piles; and building materials like steel, concrete, timber, aluminum, and cold-formed steel. STAAD Pro helps structural engineers automate their tasks by removing the tedious and long procedures of the manual methods. STAAD Pro allows structural engineers to analyze and design virtually any type of structure. Structural engineering firms, structural consultants, departments in construction companies, owner/operators, and government agencies, and offshore platform designers’ use this software extensively.

Introduction of Staad.Pro

  • 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

STAAD Foundation

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