Design A 5 Bedroom Duplex With Staad Pro Beginning To End

Design a 5 bedroom duplex with Staad Pro V8i from scratch. Master the design to become a better structural engineer

What you'll learn

You will learn how to design a 5 bedroom duplex using staad pro

You will learn how to use Staad Pro RC Designer for designer and detailing Beams and Columns

You will learn how detail the reinforcement of Beams, columns, Slabs, and Staircase

You will learn how to read architectural plan

You will learn how to use Staad Pro

You will learn how to design RC Beam using staad pro

In this course, you will become familiar with the STAAD Pro V8i interface and workspace to configure and prepare every aspect of the process

You will learn how to design RC Column using staad pro

You will learn how to design 2D RC Frame using Staad Pro

You will learn how to design 3D RC Frame using Staad Pro

You will learn how to use Staad Pro Structure Wizard for quickly modelling structures

You will learn different Staad Pro tools

You will learn how to draw beams and columns layout plan

You will learn earthquake load calculation

You will learn wind load calculation

Requirements

You will need a Laptop

You will need Staad Pro Software

You should be dedicated to learn

Description

This comprehensive course is designed for engineers, architects, and construction professionals who want to master the design of a 5-bedroom duplex using Staad Pro V8i. This industry-leading software is widely used for structural analysis and design, making it a must-have skill for any structural engineer.Throughout the course, you will learn how to use the software's advanced modeling, analysis, and design capabilities, as well as the latest building codes and standards. You will start from scratch and learn how to create a complete and accurate design, including load calculation, static analysis, wind analysis, building detailing, and earthquake engineering. You will also learn how to create detailed drawings and reports to present your design to clients and stakeholders.The course is project-based, so you will have the opportunity to work on a real-life 5-bedroom duplex design, giving you hands-on experience in using the software and applying the concepts you learn. Additionally, you will receive guidance and support from an experienced and certified instructor throughout the course.ACI Code is used for the analysis and design of the building. Also, we discuss other codes such as Indian IS Code, Euro Code, and British code. I will keep updating the content in this course to provide you with more learning and more code to learn from. By the end of the course, you will have the skills and knowledge to design your own 5-bedroom duplex using Staad Pro V8i and be able to confidently present the design to clients and stakeholders. Enroll now and take the first step towards mastering the design of a 5-bedroom duplex and becoming a better structural engineer.

Overview

Section 1: Getting Familiar with Staad pro

Lecture 1 Introduction to Staad Pro

Lecture 2 Setting Staad pro Configuration

Lecture 3 Create a new project in Staad pro

Lecture 4 Staad pro Menu Bar

Lecture 5 Staad Pro Toolbars

Lecture 6 Project Order

Lecture 7 Different Mode of Operation on Staad pro

Section 2: RCC BEAM IN STAAD.PRO

Lecture 8 Creating New Project for RCC Beam

Lecture 9 Understanding and Drawing Nodes in Staad pro

Lecture 10 Understanding Different Views on Staad.Pro

Lecture 11 Modelling the beam on Staad Pro

Lecture 12 Defining the Beam Section

Lecture 13 Assigning the Section on the Beam

Lecture 14 Assigning Support reaction on the Beam

Lecture 15 Defining the Dead and Live Load

Lecture 16 Understanding the Self Weight of the Beam

Lecture 17 Understanding and Defining the Load Values

Lecture 18 Assigning the Load on the Beam

Lecture 19 Running the Analysis and Output Viewer

Lecture 20 Solving Error on Staad Pro

Lecture 21 Node Displacement Postprocessing Mode

Lecture 22 Getting the Support Reactions on the Beam

Lecture 23 Bending Moment Diagram

Lecture 24 Shear Force Diagram

Lecture 25 Beam Deflection

Section 3: 2D FRAME ON STAAD PRO

Lecture 26 Creating a new 2D frame project

Lecture 27 Drawing the Frame Nodes

Lecture 28 Drawing the Frame using the Nodes

Lecture 29 Defining the Section Properties of the Beams and Columns

Lecture 30 Assigning the Section Properties to the Beams and Columns

Lecture 31 Assigning the Support Reactions on the Frame

Lecture 32 Defining the Load acting on the Frame

Lecture 33 Assigning the Loads on the Frame

Lecture 34 Running Analysis and Output Viewer

Lecture 35 Reactions at the Support

Lecture 36 Bending and Shear Diagram

Section 4: 3D FRAME IN STAAD PRO

Lecture 37 Creating a new 3D Frame project

Lecture 38 Creating Nodes and Modelling the 3D Frame

Lecture 39 Defining and Assigning Section Properties to 3D Frame

Lecture 40 Assign Support Reactions on the Frame

Lecture 41 Defining the Load Pattern

Lecture 42 Assigning Dead and Live load on the Floor

Lecture 43 Assigning The wall load on the Beams

Lecture 44 Defining Load Combination

Lecture 45 Selecting and Defining Design Parameters

Lecture 46 Assigning The Design Parameters

Lecture 47 Checking Design Result for the Frame

Lecture 48 Re designing the failed members

Lecture 49 Bending Moment, Shear Force, And Deflection

Section 5: STRUCTURE WIZARD

Lecture 50 Creating a new Project

Lecture 51 Understanding Bay Frame in Structure Wizard

Lecture 52 Modeling different Frame Model in Structure Wizard

Lecture 53 Modelling Different Truss in Structure Wizard

Section 6: STAAD PRO TOOLS

Lecture 54 Move in Staad Pro

Lecture 55 Rotate in Staad Pro

Lecture 56 Mirror in Staad Pro

Lecture 57 Nodes in Staad Pro

Lecture 58 Translational Repeat in Staad Pro

Lecture 59 Display Floors Separately and Create New view

Lecture 60 Defining a new material Property

Lecture 61 Selecting Materials from section Database

Section 7: READING THE ARCHITECTURAL PLAN OF THE BUILDING

Lecture 62 Reading the elevation and Realistic View of the building

Lecture 63 Reading the floor plan view

Lecture 64 Reading the Section View

Section 8: COLUMN PLACEMENT ON BUILDING PLAN

Lecture 65 Determining the Trial Column Sizes

Lecture 66 Placing Columns on Ground Floor Plan

Lecture 67 Placing Columns on First Floor Plan

Lecture 68 Beam Placement on the Ground and First Floor Plan

Section 9: COLUMN AND BEAM LAYOUR PLAN

Lecture 69 Creating Column layout plan

Lecture 70 Creating Beam Layout plan

Lecture 71 Creating Plinth Beam Layout Plan

Section 10: MODELLING THE 5 BEDROOM DUPLEX IN STAAD PRO

Lecture 72 Drawing the Building Nodes

Lecture 73 Drawing the beams on Ground Floor

Lecture 74 Modelling the Building Floors with Translational Repeat

Lecture 75 Plinth Beam Level

Lecture 76 Beams on First floor Level

Lecture 77 Modelling Ground Floor Balcony

Section 11: BUILDING SECTION PROPERTIES

Lecture 78 Defining the Beams and Columns Sizes

Lecture 79 Assigning the Beams and Columns Sizes

Lecture 80 3D Rendered View of the Building

Section 12: MATERIAL SPECIFICATION CONCEPTS

Lecture 81 Understanding Cracked Sections

Lecture 82 Assigning Cracked Sections Moment of Inertia on Members

Lecture 83 Slab Rigidity with Master and Slave Node

Lecture 84 Diaphragm on Floors

Section 13: SEISMIC LOADING ON STRUCTURES

Lecture 85 Understanding Base Shear

Lecture 86 Base Shear Calculation as per ASCE 7-10 Building Code

Lecture 87 Base Shear Calculation as per IS 1893 PART 1

Lecture 88 Base Shear Calculation as per Euro and British Code 8

Section 14: STAIRCASE LOAD CALCULATION

Lecture 89 Calculating loads on Flight and Mid Landing

Lecture 90 Distributing Staircase Loads on the Beams

Section 15: LOADS ACTING ON THE BUILDING

Lecture 91 Defining the Seismic parameters

Lecture 92 Defining the Different Load Case

Lecture 93 Assigning the Seismic load case

Lecture 94 Calculating the wall load

Lecture 95 Assigning the Wall Load on the Structure

Lecture 96 Assigning the Floor Load

Lecture 97 Assigning the Floor Finish

Lecture 98 Assigning Live Load on the Floors

Lecture 99 Assigning the Support Reaction

Lecture 100 Correction on the Support Reaction

Section 16: WIND LOADING ON THE BUILDING

Lecture 101 Defining the wind Parameters

Lecture 102 Assigning Wind load Data

Lecture 103 Assigning wind load in the X direction

Lecture 104 Assigning wind load in the X direction part 2

Section 17: SHORTCOLUMN AND MOMENT RELEASE

Lecture 105 Short Column Effect

Lecture 106 Understanding Moment Release

Lecture 107 Moment release on the Structure

Section 18: STAIRCASE LOADING

Lecture 108 Assign the Staircase dead load

Section 19: APPLY THE SEISMIC WEIGHT ON THE BUILDING

Lecture 109 Defining and Assigning the earthquake load cases and seismic definition

Lecture 110 Generating the Load Combinations

Lecture 111 Correction on the Structure and Seismic load definition

Section 20: ANALYSIS OF THE BUILDING

Lecture 112 Errors and Warnings Checks

Lecture 113 Solving Error and Warning Checks

Lecture 114 Allowable Story drift check

Section 21: DESIGNING THE BULDING

Lecture 115 Selecting the design parameters

Lecture 116 Defining and Assigning Design Parameters

Lecture 117 Define and Assign design Command

Lecture 118 Pass the failed Members

Section 22: DESIGNING THE BUILDING WITH ADVANCED RC DESIGNER

Lecture 119 Introduction to Advanced RC Designer

Lecture 120 Creating design group for beams and columns

Lecture 121 Design and detailing of RC Beams in Staad Pro RC Designer

Lecture 122 Design and detailing of RC Columns in Staad Pro RC Designer

Section 23: MANUAL COLUMN DETAILING

Lecture 123 Choosing the Bar Size and No of Bars

Lecture 124 Understanding Column detailing diagram on the floors

Lecture 125 Cross section view of Column Reinforcement

Lecture 126 Column layout plan for similar Reinforcement

Lecture 127 Reading the Column reiforcement

Lecture 128 Column Lateral Ties

Lecture 129 Detailing of the Circular Columns

Section 24: MANUAL BEAM DEATILING

Lecture 130 Detailing of beam Longitudinal bar

Lecture 131 Detailing the beams with extra Bars

Lecture 132 Reading the Longitudinal beam reinforcement

Lecture 133 Reading the Stirrup reinforcement

Civil Engineering Students,Structural engineers,architects,Students ready to learn Staad Pro,Construction professionals,Civil Engineers,Structural engineering students,Students who want to learn design of Buildings