Course Information

Overview

The innovative and revolutionary new ETABS is the ultimate integrated software package for the structural analysis and design of buildings. Incorporating 40 years of continuous research and development, this latest ETABS offers unmatched 3D object based modeling and visualization tools, blazingly fast linear and nonlinear analytical power, sophisticated and comprehensive design capabilities for a wide-range of materials, and insightful graphic displays, reports, and schematic drawings that allow users to quickly and easily decipher and understand analysis and design results.

 

Objectives

استخدام ETABS لتوضيح وتحليل وتصميم وتفصيل بنية المباني الخرسانية المعرضة للجاذبية الثابتة والحمولة الجانبية

Using ETABS to model, analyze, design and detailed a Concrete Building Structure subjected to static gravity and lateral load.

Audience

  • Civil/Structural Engineers

  • Civil/Structural Engineering Students

    Steel Structure designers

    Steel Structure Contractor

المهندسون الانشائيون

طلاب الهندسة المدنية الانشائية

مصممو الانشاءات المعدنية

مقاولي الانشاءات المعدنية

 

Outline

  • ETABS: Module 1:Introduction
    • Structural Analysis and Design ETABS
  • Module 2: Modeling
    • New Model Quick Template
    • Add Grid at Selected Joints
    • Grid Options
    • Edit Stories and Grid System
    • Material Properties
    • Section Properties
    • Frame/Slab/Deck/Wall Sections
    • Draw Grids
    • Draw Joint Objects
    • Draw Beam/Column/Brace objects
    • Object Selection
    • Draw Floor/Wall objects
    • Draw Wall and Floor openings
    • Draw Wall Stack
    • Replicate
    • Extrude
    • Joints to frames
    • Frames to shells
    • Merge Joints
    • Align & Move Joints/Frames/Edges
    • Edit/Divide/Joint Frames
    • Reverse Frame Connectivity
    • Edit / Divide/Merge/ Expand/Shrink Shells
    • Split Shell Edge
    • Remove Joints from Shells
    • Chamfer Slab Corners
    • Reverse Wall Local 3 Axis
    • Modify/show Wall Curve Type
  • Module 3: Frame Property Specifications
    • Section Property
    • Property Modifiers
    • Released/Partial Fixity
    • End Length Offsets
    • Local Axes
    • Output Stations
  • Module 4: Shell Property Specifications
    • Slab Section
    • Wall Section
    • Openings
    • Local Axes
  • Module 5: Joint Property Specifications
    • Restraints
    • Springs
  • Module 6: Loading & Analysis
    • Code requirements for Earthquake design, materials, load Definition, Earthquake load calculation by UBC 97,IBC and ACI requirements for earthquake design and detailing
    • Response spectrum Functions
    • Dynamic and static analysis
    • Assigning Load Pattern & options
    • Load Patterns
    • Shell Uniform Load Sets
    • Joint Loads/Frame Loads/Wind Loads/Shell Loads/
    • Load Cases
    • Set Load Cases to Run
    • Result Display
  • Module 7:Concrete Frame Design
    • Introduction
    • Design Procedure
    • View/Revise Preferences
    • View/Revise Overwrites
    • Select Design Groups
    • Select Design Combinations
    • Start Design Check
    • Interactive Design
  • Module 8: Shear Wall Design
    • Shear Wall Design Preference
    • Shear Wall Design
    • Start Design/Check
    • Display Design info / results
    • Shear Wall pier summary & design details
  • Module 9: Steel  Design
    • Introduction
    • Design Procedure
    • View/Revise Preference
    • View/Revise Overwrites
    • Select Design Groups
    • Select Design Combinations
    • Start Design/Check
    • Interactive Design
  • Module 10: Detailing
    • Detailing Preferences
    • Concrete Component Preferences
    • Steel Detailing Preferences
    • Rebar Selection Rules
    • Detailing Preferences
    • Concrete Component Preferences
    • Steel Detailing Preferences
    • Rebar Selection Rules
  • SAFE: Module 11: Introduction to SAFE v2016
    • Sample model from Template (Start to Finish)
    • Loading, Analysis, Design & Detailing
  • Module 12: overview
    • Screen manipulate tools
    • Drawing Tools
    • Snap Control
    • Edit Line/Area
    • Replicate
    • Creating Default.FDB
    • Draw beams, slabs, columns, walls
    • AutoCad Reference drawing
  • Module 13:Understanding FEM in SAFE
    • Objects overview
    • 1D /2D elements
    • Support & Restraint
    • Springs f. Design Strip Vs FEM methods
    • Orthotropic slab properties h. Slab stiffness modifier
  • Module 14: Creating a SAFE model
    • Loading
    • Load Pattern
    • Load combination
    • Load Case
    • Loading the model
    • Point/Line /Area load
    • Uniform/ Non-Uniform
    • Meshing
    • Mesh refinement
    • Mesh orientation based on Area local axis
    • Autoline constraint
    • Insertion point offset
    • Beam design with Axial loading
    • Releasing k. Beam release
    • Slab releases (Edge and Line)
    • Advanced modelling options
    • Rigid Diaphragm for top of columns and wall above
    • Ignore vertical offset for Non PT model
  • Module 15: Linear Analysis with SAFE
    • Modelling Beam
    • Modeling Floor
    • Create model
    • Analysis model
    • Design beam and slab
  • Module 16: Advanced/Nonlinear Analysis with SAFE
    • Modal Analysis
    • Cracked Analysis
    • Cracked Analysis (Creep + Shrinkage)
    • Allow Uplift
    • Cracked width
  • Module 17: Design solid slabs
    • How to make Structural system from Arch plan.
    •  How to get Concrete Dimensions (Slabs & Beams).
    • Wall Loads Calculations.
    • Design Reinforcement for (Beams-Columns-Slabs).
  • Module 18: Design Flat Slabs
    • How to make Structural system from Arch plan.
    • How to get Concrete Dimensions (Slabs & Beams).
    • Equivalent Wall Loads Calculations.
    • Design Reinforcement for (Beams-Columns-Slab).
  • Module 19: Design raft foundation
    • Foundations Types.
    • Design Raft under Gravity load and Seismic loads.
    • How to Import Raft from AutoCAD (Raft DXF File).
    • Raft Reinforcement.