STAAD PRO

STAAD Pro is the leading Structural Analysis and Design Software from Bentley. It is the professional’s choice for steel, concrete, timber, aluminum, and cold-formed steel design of virtually any structure including culverts, petrochemical plants, tunnels, bridges, piles, and much more.

40

Lectures

20

Quizzes

60 Hours

Duration

Beginner

Skill level

STAAD Pro is a structural analysis and design software that is widely used to analyze and design structures for bridges, towers, buildings, transportation, industrial and utility structures. It supports over 90 international steel, concrete, timber & aluminum design codes.

This course teaches how to create physical modeling that reflects the process of building a model; load combinations as per code requirements; concrete design of beams and columns in the building; steel frame structural frames for the wind loads; Interpolation and results in validation of beams and frame and much more. So, this course doesn’t require you to have any prior experience in this software or any other structural design software. It will teach all the aspects of the software along with technical knowledge from very basic and will take you to the higher levels of the software as the course progresses.

By the end of the course, one could be able to perform complete structural, cable, and transient analysis for different loading conditions and various materials such as concrete, steel, etc.

  • About analysis & FEA
  • where it stands in simulation
  • history
  • features
  • applications
  • benefits
  • Flow chart & stages of it
  • Create new file
  • Template settings
  • Structure types
  • Member types
  • GUI
  • Node creation
    • Coordinate method
    • Snap method
    • Copy & Paste
  • Beam modeling
    • Definition of beam
    • Snap node grid
    • Coordinate
    • Add beam & its options
  • Connect beams
  • Curved beams
  • Definition of plate
  • Creation a plate
  • Add plate options
  • Definition of shell & surface
  • Create and options of it
  • Tools for Modelling
    • Copy, Mirror, Inset node
    • Repeat – translation &circle
  • Property
  • Section properties
  • Member properties – steel & concrete
  • User table options
  • Assigning methods
  • Material properties
  • Types of support
  • Structural Loads
  • Load types
  • Load summary
  •  Load case
  • Dead load
  • Live load
  • Wind load
  • Moving loads
  • Member loads
  • Load combination
  • Auto creation of combinations
  • Solution settings
  • Analysis options
  • Model checks
  • Beam & frame analysis
  • Steel structure shed analysis
  • RCC structure analysis
  • Moving Loads and Cable simulation
  • Summary & Conclusion

ANSYS MAPDL (Classic) is the leading software solution that uses finite element analysis (FEA) for various analyses/simulations using the ANSYS Mechanical interface. It covers an enormous range of applications in the field of mechanical, aerospace, bio-medical, automotive, structural, and much more in 3 phases i.e., pre-processing, solution & post-processing. Ansys Mechanical APDL is also used to model advanced materials, complex environmental loadings, and industry-specific requirements in areas such as offshore hydrodynamics and layered composite materials as well.

This course is recommended for anyone who wishes to perform Finite Element Analysis (FEA) of mechanical parts and has little or no ANSYS Mechanical APDL (MAPDL) software experience. The ANSYS Mechanical APDL workflow, graphical user interface, along with the APDL command syntax, will be introduced to users. The focus will be on linear static structural analyses, although the concepts presented will provide a strong foundation to allow the user to solve other physics, such as thermal analyses, or more complicated analysis procedures with ANSYS MAPDL. After completing the course, attendees shall be able to use the ANSYS Mechanical APDL software efficiently to set up, solve, and post-process linear static analyses.

Please note that for those wishing to learn the Workbench version of ANSYS Mechanical should attend the “Introduction to ANSYS Mechanical” training course instead.

  • Introduction to the Finite Element Method
  • What is the Finite Element Method?
  • History
  • About ANSYS
  • ANSYS Basics
  • ANSYS Classic Environment
  • GUI – Graphics and Picking
  • The Database and Files
  • Saving Files
  • Exiting ANSYS
  • File Types
  • Overview
  • Preliminary Decisions
  • Preprocessing
  • Solution
  • Post processing
  • Simple Model creations
  • Hierarchy of model elements & its connections
  • Import of CAD model
  • Work Plane creation & importance
  • Boolean Operations
  • Operational commands
  • Model Connectivity
  • Model Checks
  • Setting Element Attributes
  • Element Type selection & its options
  • Section properties,Real Constants
  • Assigning Element Attributes
  • Free Mesh & Mapped Mesh
  • Mesh Controls
  • 3D Mesh – Hex, Tet, Hybrid
  • Mesh Connectivity
  • Mesh Quality & Checks
Overview
STAAD PRO
Curriculum

Enroll Now

Basic

3200 /4 Months
3500
  • Mode Of Delivery e-Course
  • Certification On Completion
  • One Time Payment
  • Course Content: Available
  • Email Clarification (Twice A Week)
  • Non-Convertible
  • Direct Interaction: Online (Weekly Once)
  • Hands-On: Real-Time Projects
  • Contact For Group Enrollments

comfort

4999 /8 Months
5999
  • Mode Of Delivery e-course
  • Certification On Completion
  • Course Content: Available
  • One Time Payment
  • Email Clarification (Twice A Week)
  • Student Community 
  • Direct Interaction: Online (Weekly Once)
  • Non-Convertible
  • Hands-On: Real-Time Projects
  •  Contact For Group Enrollments

Premium

9999 /60 hrs
11999
  • Direct Interaction/ Online
  • Certification On Completion
  • Course Content: Available
  • One Time Payment
  • Clarification Even After the Course
  • Rejoin Any Batch
  • WhatsApp Support
  • Industry Projects: Hands-On  
  • Contact For Group Enrollments
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