Gyan Edge Educational Services LLP

Basic Workshop on
Seismic Analysis of Building

   A beginner-friendly training program designed to introduce the fundamentals of seismic analysis.

   Understand the seismic behaviour of buildings.
   Gain practical insights into seismic analysis methods used in real-world structural engineering.
   Learn to interpret seismic codes IS:1893 and IS:13920 and apply them using exclusively developed 
         learning software and industry-standard software like STAAD.pro / ETAB.
   Ideal for civil engineering students, site engineers, and professionals seeking to upskill in earthquake- 
        resistant design.

Learning Mode

 Program is available in Online and  Offline mode at Nagpur Centre

Duration

 Duration of Program is 30 hrs. in both Online and offline learning modes

Certification

Certification of Completion with verifiable ID will be issued after course completion

Fee & Offers

Rs. 7890 /-

Rs. 3890 /- (Introductory offer)

Contact us for Group discount

Learning Highlights

  Basics of Earthquake Engineering - Understand the origin, nature, and impact of seismic forces on buildings. 

        Learn how ground motion affects structural behaviour and why seismic design is critical in civil engineering.

  Seismic Load Calculations -Get hands-on with calculating seismic weight, base shear, and lateral force distribution using IS 1893. 

        Learn how to apply zone factors, importance factors, and response reduction factors correctly.

  Design Philosophy - Explore the principles behind earthquake-resistant design as per Indian standards. 

        Understand the rationale behind ductility, redundancy, and energy dissipation in seismic design.  

  Dynamic Analysis Methods -Learn the difference between static and dynamic analysis approaches. 

        Understand how response spectrum curves are generated and used.

        Get introduced to time history analysis for advanced scenarios.

  Irregularities and Torsion -Identify plan and vertical irregularities in buildings and understand their impact on seismic performance. 

        Learn how to account for torsional effects and configure buildings to minimize seismic vulnerability.

  Software-Based Analysis - Model and analyse building frame using exclusively developed software and STAAD.Pro / ETABS.

Methodology

Learn–Do–Review approach.

  Learn: Understand technical concepts.

  Do: Hands-on sessions and spreadsheet development.

  Review: Online / offline tests to reinforce learning.

Online Portal Access

Participants receive:

  Free access to premium civil engg. courses for one year.

  Extra discount on premium courses after one year.

  Downloadable resource materials.

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    Email: support@gyanedge.net

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      Key Topics in Training Program

      Introduction to Earthquake Engineering
    • Understand the basics of seismic activity, types of earthquakes, and how ground motion affects built structures. 
    • Learn the importance of seismic design in civil engineering and the global context of earthquake-resistant construction.

        Seismic Forces and Ground Motion Characteristics

          Explore how seismic forces are generated and transmitted through the earth. 
          Learn about parameters like magnitude, intensity, epicentre, and frequency content. 
          Understand how these influence structural response.

        Seismic Design Philosophy and Load Combinations

        Grasp the core principles of designing buildings to withstand earthquakes. 
        Learn about strength, stiffness, ductility, and redundancy. 
        Understand how seismic loads are combined with other loads (dead, live, wind) in design scenarios.

        Overview of IS 1893: Seismic Design Criteria

        Dive into the Indian Standard IS 1893 and its role in seismic design. 
        Learn how to determine zone factors, importance factors, response reduction factors, and calculate base shear. 
        Understand the classification of buildings and soil types.

        Equivalent Static Method and Response Spectrum Method of Analysis

        Get introduced to Equivalent Static and dynamic analysis techniques. 
        Learn how response spectra are developed and used in design. 
        Understand the basics of time history analysis and when it’s applicable.

        Torsion, Irregularities, and Base Shear Calculations

        Identify plan and vertical irregularities in buildings. 
        Learn how torsional effects influence seismic performance. 
        Practice calculating base shear and distributing lateral forces across building height.

        Software-Based Seismic Analysis (STAAD.Pro / ETABS)

        Learn how to model buildings and apply seismic loads using STAAD.Pro or ETABS. 
        Understand input parameters, load definitions, and analysis settings. 

        Case Studies and Practical Assignments

        Apply your learning to simplified case studies involving real-world building configurations. 
        Solve structured assignments and quizzes to reinforce concepts and test your understanding.

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        Contact US

        Uma Sadan, Plot No. 323, Barlinge Layout, Laxminagar, Nagpur, Maharashtra, 440022

        support@gyanedge.net