Concrete & Structure (seperated Courses)



ETABS 32 hrs
Module 1

  • Interface
  • Define the grids
  • Import the file
  • Define
    • Materials
    • The columns
    • Shear walls
    • The slabs
  • Draw the slabs
  • Assign
  • The slabs
  • shear wall
  • columns
  • beams
  • Load Cases-­‐Load Combination
  • Analysis Cases
  • Analysis of Beams
    • Edit Grids
    • Define of Beam Section
    • Draw the elements
    • Restrains
    • Loads
    • Display Options
    • Degree Of Freedom
    • Deflection
    • Straining Actions
    • Global Axis – Local Axis

Module 2

  • Analysis of Concrete and Steel Frames
    • Edit Grids
    • Define Frame Sections (R-section& T-section)
    • Draw the frame
    • Loads (Triangular Distributed load – Uniform Distributed load )
    • Load Combinations
    • Concentrated Moments-Loads
    • Degree of Freedom
    • Deformed Shape
    • Straining Actions
  • Analysis of Solid Slabs
    • Design a primary thickness with excel sheet
    • Get a primary straining actions with first principles
    • Define the slab shell
    • Define Area Sections
    • Edit Grids
    • Draw The slab
    • Joint Restrains
    • Load cases
    • Load combinations
    • Assign the loads
    • Mesh The Areas
    • Analyze
    • Straining Actions
    • Stresses
    • Reinforcement (Mesh and additional)
    • Home work


Module 3

  • Analysis of Multi‐Story Frames
    • Define Grid Data
    • Define Frames (internal column – external column – beams)
    • Draw Elements (columns – beams)
    • Replicate the model
    • Loads (Uniform Loads – joint loads)
    • Deformed Shapes

  • The Analyze of Flat Slab
    • Get a primary thickness of the flat slab
    • Determine the allowable deflection
    • Columns (wanted check punching)
    • Edit Grids
    • Define the (Slabs – Beams)
    • Draw the areas
    • Mesh the areas
    • Check deflection
    • Check punching
    • Load cases – load combination
    • Loads
    • Analyze
    • Stress
    • Reinforcement

Module 4

  • Working with data tables
  • Classification of tabular data
    • Model definitions
    • Analysis results
    • Design results
  • Tables and fields
  • Uses of tabular data
    • Selecting using tables
    • Formatted tables for presentation
    • Structured database tables
  • Displaying tabular data
  • Printing tabular data
  • Custom report writer
  • Format control for display and printing
  • Interactive Table editing
  • Exporting Tabular data
  • Importing tabular data
  • Automatic export during save
  • Export during analysis
  • Tabular database file formats
    • Microsoft access data base
    • Microsoft Excel spreadsheet
    • Plain text file
  • Analyze of Stairs (Two flight stair)
    • Define the materials
    • Define the frames
    • Draw the levels
    • Load cases – Load combination
    • Loads
    • Draw the areas
    • Mesh the areas
    • Analyze
    • Straining Actions
    • Reinforcement


Module 5:(Appling On The Project)

  • Step No 1
    • Export From AutoCAD
    • Statical System
    • Define The Frames ( Slabs-Beams)
    • Draw the area
    • Mesh the area
    • Join Restrains
    • Load Cases _ Load Combinations
    • Assign Loads
    • Replicate The Floors
    • Analyze
    • Export The Columns
    • Design The Columns
    • Reinforcement


Module 6

  • Step No 2
    • Get Straining Actions From The Beams (B.M.D-­‐S.F.D)
    • Design primary with first principles the sections
    • Put the data in excel sheet
    • Design the beams on excel sheet according to ECP
    • Draw a design drawing for the beams and sections

Discuss the full Job with the students and make their presentations

Tekla Structure 32 hrs
SAFE 32 hrs

 

Module 1:

  • Introduction
  • Define a new model
  • Define the material & slabs
  • Coordinates system and Grids
  • Load cases
  • Main window
  • Menu bar
  • Snap tools
  • Selecting
  • Analysis of Beams
    • Edit Grids 
    • Define of Beam Section
    • Draw the elements 
    • Restrains
    • Loads
    • Display Options
    • Degree Of Freedom
    • Deflection
    • Straining Actions
    • Global Axis – Local Axis

 

Module 2:

  • Define the columns section
  • Define the wall section
  • Define the static load pattern
  • Define load cases
  • Draw slabs
  • Draw columns
  • Draw shear wall  
  • Analysis of Concrete and Steel Frames 
    • Edit Grids
    • Define Frame Sections (R-section& T-section)
    • Draw the frame
    • Loads (Triangular Distributed load – Uniform Distributed load )
    • Load Combinations
    • Concentrated Moments-Loads
    • Degree of Freedom
    • Deformed Shape
    • Straining Actions

Module 3:

  • The Analyze of Flat Slab      
  • Get a primary thickness of the flat slab
  • Determine the allowable deflection
  • Columns (wanted check punching)
  • Edit Grids
  • Define the (Slabs – Beams)
  • Draw the areas
  • Mesh the areas
  • Check deflection
  • Check punching
  • Load cases – load combination
  • Loads
  • Analyze
  • Stress
  • Reinforcement
    • Draw Beams and Slab opening 
    • Add design strip 
    • Set display option and assign loads 
    • Run analysis and view results
    • Load combinations results
    • Design display of beams and slab
    • Run and show detailing
                                                                                                                 

Module 4: (Make the project on SAFE and make check deflection (the main purpose)

  • Begin a new model
  • Set the units
  • Define the grids
  • Save the model
  • Define the properties
  • Define the material properties
  • Define slab and drop properties
  • Define beams properties
  • Define column properties
  • Define wall properties
  • Define static load patterns
  • Define load cases
  • Draw objects
  • Draw the slabs
  • Draw the columns
  • Draw the wall
  • Draw the beams
  • Draw openings
  • Mesh the area

Module 5:

  • Set display option
  • Assign loads
  • Check the model
  • Run the analysis
  • graphically review the analysis results
  • Reinforcement
  • Check all previous results (slabs-beams-columns)
  • Create reports .

Module 6:

  • Calculate the deflection manual ( The Main Purpose )
  • Run the model on working loads combinations
  • Export all the Pdf we will need
  • All the students will recheck their results and get discussions
Vasari 3 32 hrs
Naviworks 2013 32 hrs
Robot Structure Analysis 24 hrs
Civil 3D 28 hrs
Csi Column & pc column 16 hrs
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