X

ETABS Dynamics | 9.82 GB

Engineering Lectures & Courses

 
  • Filter
  • Time
  • Show
Clear All
new posts
  • Saadedin
    Thread Author
    Administrator
    • Sep 2018 
    • 38037 
    • 19,969 
    • 3,209 

    ETABS Dynamics

    Learn Structural Dynamics, Earthquake Resistant Design (G+9 Frame Structure)


    What you'll learn
    Basics of Seismology
    Basics of structural dynamics
    Knowledge Sharing on Dynamics (Q&A)
    Seismic analysis procedure
    Concept Behind Response Spectrum
    Earthquake resistant design
    Manual Calculations of response spectrum analysis
    ETABS vs EXCEL Response Spectrum on G+9 Story Framed Structure.(P-1)
    Important Checks After Response Spectrum Analysis.
    Fundamental Concepts Behind Push over Analysis.
    How Define Pushover Analysis in Etabs.
    Understanding Results After Pushover Analysis In Etabs.





    Requirements
    No prior experience is needed. You will learn everything you need to know.
    Interest in Mechanics and Structural Engineering
    A computer with either Windows or Mac to install the ETABS.
    A strong work ethic, willingness to learn, and plenty of excitement about the ETABS.
    Nothing else! It's just you, your computer and your hunger to get started today.

    Description
    What You Will Learn in This Course:1. Basics of Seismology Types and causes of earthquakes Earthquake terminology and fault types Plate tectonics and continental drift Seismic waves and their properties Earthquake measurement and ground motion parameters2. Basics of Structural Dynamics Single Degree of Freedom (SDOF) system Dynamic equation of motion Frequency ratio, damping force, and inertial force Natural frequency and vibration types Effect of damping in structural dynamics3. Seismic Analysis Procedures Static and dynamic loads Linear and nonlinear models Linear and nonlinear static/dynamic analysis Limitations of each method4. Response Spectrum Analysis Understanding and generating response spectra Characteristics and construction of elastic design spectra Using response spectrum for structural design5. Earthquake Resistant Design Design philosophy and earthquake load considerations Factors affecting earthquake-resistant structures Importance of ductility and response reduction factors6. Manual Response Spectrum Analysis Multi-Degree of Freedom (MDOF) systems Mass and stiffness matrix formation Eigenvalues, eigenvectors, and mode shapes Modal participation factors and base shear calculations Response spectrum analysis using Excel7. Response Spectrum Analysis Using ETABS Defining modal cases (Eigen & Ritz vectors) Base shear correction and vertical earthquake effects Load combinations and structural mode checks Inter-story drift and torsional response checks8. Pushover Analysis Using ETABS Capacity and demand of structural members Pushover curve and structural performance evaluation Estimating inelastic displacement Capacity spectrum and displacement modification methods9. Important IS Code Concepts Plan and vertical irregularities Diaphragm considerations Strong column-weak beam concept Key Highlights of the Course:Advanced structural dynamics concepts Practical seismic analysis and earthquake engineering Hands-on response spectrum and pushover analysis using ETABS Real-world applications and case studies Manual calculations and Excel-based analysis Instructor Details:Instructor: Mr. Ramesh Qualification: Sr. Structural Engineer, IIT Roorkee Current Position: PGET at Larsen & Toubro (L&T)

    Who this course is for
    Civil Engineers
    Structural Engineers
    Designers
    Beginner to Advanced ETABS Users
    Modelers
    Construction Professionals
    Anyone with an interest in Design,modeling and analysis


    Last updated 2/2025
    Created by Bhavanams C2C
    MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz, 2 Ch
    Level: All | Genre: eLearning | Language: English | Duration: 22 Lectures ( 22h 8m ) | Size: 9.82 GB

    Download

    *



Working...
X