Currently Empty: ₹0.00
STAAD PRO
Training Program Details
STAAD PRO
With Industry Expert
Course Duration: 2 Months
Training Mode: Live + Recorded (Lifetime Access)
Live Session Timing: 8:00 AM to 9:30 AM
Time Table: 5 Days a Week
Language: English
ABOUT THIS TRAINING
Structural engineering is one of the most demanding specializations of civil engineering. Now a days dealing of real-life challenging projects by conventional approach is too difficult. Industry demands both conceptual understanding of structure and deep knowledge about the trending softwares.
COURSE MODULES
Module 1: The Analytical Wireframe (Geometry)
STAAD uses a “Node and Beam” logic. Unlike ETABS, which is story-based, STAAD treats everything as a coordinate in 3D space.
Node & Member Generation: Using the Grid, Structure Wizard, and the “Snap Node/Beam” tool.
The Data Table (Editor): Learning the STAAD Editor (the “Command File”). A pro user often types coordinates and properties faster than they can click them.
Property Assignment: Defining Prismatic sections (Rectangular, Circular) and standard Steel Tables (I-sections, Channels, Angles).
The Beta Angle: Correcting the orientation of columns and beams to match the architectural layout.
Module 2: Degrees of Freedom (Supports & Specifications)
Because STAAD is a general-purpose tool, you must explicitly tell it how members behave.
Support Types: Defining Fixed, Pinned, and “Fixed But” (springs) supports.
Member Releases: Using the START and END release commands to model truss behavior (pinned joints) in a frame.
Offsets: Accounting for the physical depth of members when they connect at a single node.
Master-Slave Constraints: Creating rigid floor diaphragms (similar to the ETABS logic) for lateral analysis.
Module 3: Load Logic & Global Forces
STAAD’s strength lies in its ability to handle complex loading on non-typical shapes.
Load Cases: Primary cases for Dead (Self-weight), Live, Wind, and Seismic.
The Load Generator: Using built-in tools for Automatic Wind Load on towers and Moving Loads for bridge decks or crane gantry beams.
Reference Load Cases: A cleaner way to manage mass for seismic analysis without duplicating loads.
Load Envelopes: Creating “Strength” and “Serviceability” combinations to find the absolute maximum forces.
Module 4: The Engine Room (Analysis Types)
STAAD offers various “Engines.” Choosing the right one determines the accuracy of your results.
Perform Analysis: The standard linear static check.
P-Delta Analysis: Essential for steel frames and slender tall structures to account for secondary moments.
Dynamic/Seismic Analysis: Setting up the Response Spectrum or Time History analysis.
Post-Processing: Interpreting the “Results” tab—looking at Bending Moment (My, Mz), Shear (Vy, Vz), and Torsion (Mx).
Module 5: Code-Based Design (Steel & Concrete)
This is where the software checks if your sections are “Safe” or “Fail.”
Design Parameters: Setting FYLD (Yield strength), RATIO (Permissible stress), and UNL (Unsupported length).
Steel Design: Using the CHECK CODE and SELECT commands to let STAAD optimize the lightest steel section for the load.
Concrete Design: Standard member design per codes like ACI 318 or IS 456.
The Output File: Reading the .ANL file to identify errors, warnings, and the “Utilization Ratio.”