Staad Pro : Zero to Hero : in Hindi

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Learn Staad Pro by Following Step by Step instructions

What you will learn

Introduction of STAAD Pro Software.

IS 1893: 2016

Earthquake Analysis

Manual Earthquake Analysis in Excel & verify in Staad Pro

Description

Welcome to Learning & Exploring Civil Engineering Concepts & Softwares Practically.

Autodesk Revit is a building information modelling software tool for architects, landscape architects, structural engineers, mechanical, electrical, and plumbing (MEP) engineers, designers and contractors. The software allows users to design a building and structure and its components in 3D, annotate the model with 2D drafting elements, and access building information from the building model’s database. Revit is 4D building information modeling application capable with tools to plan and track various stages in the building’s lifecycle, from concept to construction and later maintenance and/or demolition.

Take your Revit skills to the Advanced level. First, get comfortable with the Revit environment, and learn to set up a project and add the grids, levels, and dimensions that will anchor your design. Then we dive into modeling: adding walls, doors, and windows; creating and mirroring groups; linking to DWG files; and working with floors, roofs, and ceilings. I will also shows advanced techniques for modeling stairs and complex walls, adding rooms, and creating schedules. Finally, discover how to annotate your drawing so all the components are perfectly understood, and learn how to output sheets to PDF and AutoCAD.

Finally i will also covers basics to Intermediate level of dynamo in Revit.

Herewith I had created many videos for civil engineering students & professionals in order to learn concepts & softwares practically.

In this Course you can learn following most demanded civil engineering softwares from very basic level to advanced level.

AutoCAD 2D

AutoCAD 3D,

Revit Architecture,

Revit Structure,

Revit MEP

Revit Dynamo,


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Staad Pro,

Etabs,

Revit to Lumion Pro,

Preliminary Designs of Structural Members,

Leaning Bar Bending Schedule with AutoCAD & Excel,

Quantity Surveying / Building Estimation with AutoCAD & Excel,

AutoCAD Raster Design,

Introduction to ISO Global BIM Standards

With Warm Regards,

Ashish Pandit

B.E. Civil Engineering From M.S. University (First Class with Distinction) (BIM Engineer)

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language

Content

Complete Staad Pro Learning through Project

Introduction TOPICS COVERED IN STAAD PRO V8i
PART 1 – BASIC INFORMATION NEEDS TO KNOW
PART 2 – INTRODUCTION TO STARTUP SCREEN
PART 3 – BASIC CONFIGURATION IN STAAD PRO
PART 4 – CREATING A NEW PROJECT IN STAAD PRO
PART 5 – GRAPHICAL USER INTERFACE OF STAAD PRO
PART 6 – WORKING WORKFLOW IN STAAD PRO
PART 7 – UNDERSTANDING CO ORDINATE SYSTEM
PART 8 – ENTERING NODES CO ORDINATES IN STAAD
PART 9 – UNDERSTANDING VIEWS IN STAAD PRO
PART – 10 DRAWING BEAMS BY CONNECTING NODES
PART 11 – DEFINING AND ASSIGNING CROSS SECTION
PART 12 – DEFINING AND ASSIGNING SUPPORTS to nodes
PART 13 – DEFINING AND ASSIGNING DEAD LOAD
PART 14 – DEFINING POINT LOAD, UDL AND MOMENT
PART 15 – ASSIGNING POINT LOAD UDL & MOMENT
PART 16 – GETTING STARTED WITH ANALYZING THE Beam
PART 17 – GETTING SFD, BMD, SUPPORT REACTIONS
PART 18 – Manually VS. Staad Pro
PART 19 – UNDERSTANDING FRAME
PART 20 – DRAW BEAMS COLUMNS APPLY SECTION sizes
PART 21 – CREATING AND ASSIGNING LOADS
PART 22 – VIEW RESULTS OF FRAME
PART 23 – UNDERSTANDING 3D FRAME
PART 24 – ENTERING NODES AND DRAW BEAMS
PART 25 – CREATING AND DEFINING MATERIAL Properties
PART 26 – CREATING AND ASSIGNING LOADS
PART 27 – CREATING LOAD COMBINATIONS
PART 28 – DEFINING AND ASSIGNING THE DESIGN Parameters
PART 29 – REDESIGNING THE SECTIONS AND VIEWING
PART 30 – VIEWING OUTPUT RESULTS
PART 31 – HOW TO USE STRUCTURE WIZARD
PART 32 – UNDERSTANDING BAY FRAME
PART 33 – USING MOVE COMMAND
PART 34 – USING TRANSLATION REPEAT COMMAND
PART 35 – USING ROTATE COMMAND
PART 36 – USING MIRROR COMMAND
PART 37 – USING VIEW AND ZOOM COMMANDS
PART 38 – Add Nodes in Beams
PART 39 – Various Beam Adding Options
PART 40 – USING CIRCULAR REPEAT COMMAND
PART 41 – View Individual Floors Separately
PART 42 – CREATE A NEW MATERIAL
PART 43 – Access Steel and Wood Database
PART 44 – Concept of Moment Release
PART 45 – Full Moment Release
PART 46 – Partial Moment Release
PART 47 – Offsetting the Beam Members
PART 48 – Miscellaneous Specification Options
PART 49 – Working Flow Map of a Project
PART 50 – Reading Architectural Drawing
PART 51 – Defining the Base Nodes
PART 52 – Modeling of the Building Floors
PART 53 – Modeling of the First Floor Balcony
PART 54 – Modeling of the Second Floor Balcony
PART 55 – Preliminary Design of Slab
PART 56 – Preliminary Design of Beam
PART 57 – Concept of Column Preliminary Design
PART 58 – Calculation of the Dead Load
PART 59 – Calculation of the Live Load
PART 60 – Calculation of the Preliminary size of the Column
PART 61 – Defining The Beam and Column Sections
PART 62 – Concept of the Cracked Sections
PART 63 – Assigning Cracked Section Properties
PART 64 – Understanding and Assigning the Master Slave
PART 65 – Assigning the Floor Diaphragm
PART 66 – Introduction to Base Shear Vb
PART 67 – Introduction to Seismic Weight of the Building
PART 68 – Horizontal Acceleration Coefficient Ah, Zone Factor Z
PART 69 – Design Acceleration Coefficient (Sag)
PART 70 – Response Reduction Factor (R)
PART 71 – Importance Factor (I)
PART 72 – Live Load Reduction
PART 73 – Introduction to Dynamic Analysis
PART 74 – Understanding Storey Shear
PART 75 – Basic Concept of Staircase
PART 76 – Calculating the Self Weight Dead Load
PART 77 – Calculating the Floor Finish Load
PART 78 – Calculating the Live Load on Staircase
PART 79 – Solving Error while Generating Seismic Load
PART 80 – Defining the Seismic Parameters
PART 81 – Defining the Load Case Details
PART 82 – Assigning the Seismic Loads
PART 83 – Calculating the Wall Load
PART 84 – Assigning the Wall Load
PART 85 – Introduction to the Self Weight of the Slab
PART 86 – Assigning the Self Weight of the Slab
PART 87 – Application of the Floor Finish Load
PART 88 – Application of the Partition Load
PART 89 – Application of the Live Load
PART 90 – Introduction to IS 875 _ Part 3
PART 91 – Calculation of Design Wind Speed (Part 1)
PART 92 – Calculation of Design Wind Speed (Part 2)
PART 93 – Calculation of Design Wind Pressure
PART 94 – Definition of Wind Load in Staad Pro
PART 95 – Application of Wind Load
PART 96 – Defining the Secondary Beam
PART 97 – Assigning the Load to the Washroom
PART 98 – Defining the New Beams for Staircase Load
PART 99 – Applying the Dead Load of the Staircase
PART 100 – Correcting the Floor Load Error
PART 101 – Application of the Staircase Live Load
PART 102 – CALCULATION OF LIVE LOAD WEIGHT
PART 103 – Introduction to the staad editor
PART 104 – Copying the Loads For Seismic Weight
PART 105 – Defining the Mass source
PART 106 – Checking for Modeling Errors
107 FINAL STAAD EDITOR FILE
PART 108 – Codal Provision for load combination
PART 109 – Making manual load combination
PART 110 – Generating auto load combinations
PART 111 – Error correction in load combination
PART 112 – Design of Structural Members
PART 113 – Defining the Design Parameters
PART 114 – Defining the Design Commands
PART 115 – Studying the Design Results
PART 117 – Beam Design Results
PART 118 – Column Design Results
PART 119 – Providing the Reinforcement to the Column
PART 120 – DESIGN OF CIRCULAR WATER TANK
PART 121 – DESIGN OF CIRCULAR WATER TANK
PART 122 – DESIGN OF CIRCULAR WATER TANK
PART 123 – Design of G + 3 Storey Building With Foundations
PART 124 – Designing Steel Tower Using IS 800 2007
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