Civil Technologies

The STAAD.Pro Software

STAAD.Pro helps structural engineers computerize their everyday jobs by removing the boring and long dealings of the manual methods. STAAD stands for Structural Analysis and Design. Designs can engage building structures with petrochemical plants, tunnels, bridges ,culverts, piles; and building materials like timber, aluminum, steel, concrete, , and cold-formed steel. STAAD.Pro software is extensively used in analyzing and scheming structures – towers, transportation, industrial, buildings, bridges, and utility structures.

The need of STAAD.PRO

STAAD.Pro allows structural engineers to examine and design practically any type of structure. Structural engineering firms, owner/operators, structural consultants, departments in building companies and administration agencies, and offshore platform designers’ use this software at length. It is the world’s number one structural analysis and design software that ropes Indian and all international codes.

STAAD.Pro comes with supple modeling environment, advanced features, and fluent data alliance.

Learning Aim?

We bring in you to STAAD.Pro’s condition of the art user interface, powerful analysis, visualization tools, and design engines with highly developed finite element (FEM) and dynamic analysis capabilities. Xtrude STAAD.Pro training covers the entire ladder involved in structural analysis and design of concrete and steel.

Key focus on:

Model Verification

2D/3D drawings on display in addition to on plotter/printer Full 3D shapes for frames, elements Isometric or any rotations for full 3D presentation

Model Generation

Interactive menu-driven model production with concurrent 3D display 2Dand 3D explicit generation using rectangular or polar coordinate systems Segments of repetitive geometry worn to generate complex structural models

Static Analysis

  • Linear, p-delta analysis, non-linear analysis with routine load and firmness correction.
  • 2D/3D analysis based on state-of-the-art Matrix system to handle enormously huge job.

Secondary Analysis

Restricted element capabilities, steel design, concrete design, and timber design.

Dynamic/Seismic Analysis

  • Forces and displacements at sections flanked by nodes. Maximum and minimum force envelopes.
  • Mass modeling, extraction of occurrence and mode shapes Response spectrum, time history analysis Modal damping proportion for individual models

After completion you will be able to:

  • You will be familiar with how to perform code check, member assortment and optimized member selection consisting of analysis/design cycles.
  • You will be familiar with how to design solid beams/columns/slabs/footings as per all leading international codes
  • You will know how to complete object-oriented intuitive 2D/3D graphic model generation.
  • You will gain knowledge of how to attain user-specified design parameters to customize design
  • You will know how to perform accurate and numerically efficient plate/shell element incorporating out-of-plane marking and in-plane rotation; automatic element mesh generation; comprehensive element stress output including in-plane stresses, out-of-plane shear, bending and principal stresses at nodal as well as user specified points
  • You will distinguish to how to carry out flexible zoom and multiple views
  • You will identify how to have isometric and perspective views and 3D shapes
  • You will distinguish, how to use built-in command file editor and easy command language
  • You will know how to do well-organized algorithm that minimizes disk space requirements
  • You will know how to use drag down menus, floating toolbars, tool tip help
  • You will know how to obtain presentation quality printer plots of geometry and results as part of run output
  • You will know how to spawn graphics/text input

Course Syllabus

    Introduction
  • About STAAD.Pro and Applications
  • Application in Industry vs University comparison
  • Traditional Structural Analysis vs. MODERN approach
  • By HAND Vs. By computer
  • Finite Element Method-Introduction
  • FEM Solutions
  • STAAD Module Orientation
  • Analysis capability and International Code support
  • 3rd part integration support
  • GUI Quick overview
  • Model Generation Techniques
  • Command File editor info
  • Built-in info order
  • Finite Element modeling
  • Load types and Generation
  • Model Verifications
  • Adv. Analysis capability
  • Result verification and post processing
  • Design code-RCC and Steel
  • Report customization
  • Solving Method
  • Solving Approach
  • How to start STAAD.Pro V8i
  • Navigating STAAD.Pro V8i GUI
  • Configuration & Settings
  • Unit and Code configuration
  • Back Up Manager
  • Opening and Saving Projects
  • Archiving Projects
  • Overview of Structure
  • Status Bar detailsHierarchy Managing
  • Understand the different component of GUI
  • VIEW Controls
  • Geometry Operations
  • Renumbering
  • Importing CAD Files
  • Details about Grid systems in STAAD.
  • Types of Structure and Methods
  • Types of Element
  • Mode of Structure
  • Creating Geometry for Structure
  • How to create Beam /Column & Curved Beams
  • Structure Wizard
  • Structure Wizard Model and STAAD Transfer
  • Modifying Geometry for Structure Copy /Copy-Link/Rotate/Mirror etc)
  • Add Mid points
  • Add Perpendicular intersection beam
  • Cut Section
  • Stretch /Split BEAMS
  • Hot spots
  • Fill Plates
  • Different Viewing Controls for Structure Geometry
  • Boundary Conditions & Properties
  • Properties of beam/column
  • Display properties
  • Rendering
  • Steel profiles
  • Material + CROSS SECTION
  • Beam and column end offset + adv. options
  • Beta control
  • Use cursor to assign and selection
  • View assign
  • Types of support
  • Material Assignment
  • Material creation
  • Load Types
  • Load case
  • Defining Load case
  • Dead Load defining
  • Imposed Load defining (LIVE)
  • Point Load
  • UDL Load
  • Floor Load
  • Area Load
  • Wind Load –IS Code based<
  • Seismic Load-IS Code based
  • Load combinations
  • Auto LOAD Combinations
  • Envelopes
  • Projects
  • Projects on Buckling
  • Post-Processing
  • Analysis Outline
  • Analysis/Print
  • Beam2D
  • Post Processing
  • Local Coordinate System
  • Internal Hinge
  • Truss2D
  • User Customized
  • Inclined Support & Support Settlement
  • P-Delta Analysis
  • Bracing with Truss or Tension Members
  • Building with Flat Slab & Shear
  • Transfer Force for Connection Design
  • Projects
  • RCC Design & Analysis
  • RCC Design and Analysis
  • Loads and Repeat Load case for RCC
  • IS RCC Codes and STAAD.Pro
  • Projects
  • Slab Design & Analysis
  • Slab Design and Analysis
  • IS CODE Check
  • Approach
  • Modal Analysis
  • What is Modal Frequency or fundamental Frequency
  • Necessary for conducting Modal Analysis
  • Parameters need to check after Analysis

Course Information

  • Class Start: Every Monday, Wednesday & Friday
  • Course Duration: 60 hours(40 hours for Software Training & 20 hours for Project Handling)
  • Student Capacity: 8-12 students per batch
  • Certification: For Software Training(1) & For Project Handling(1)
  • Course Benefits Include:
    • Industrial Visit
    • Tool Kit
    • Lifelong Support
    • Placement Guaranteed
    • Project Handling
    • Resume Writing
    • Moneyback Guaranteed

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