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Learn STAAD PRO | From Zero to Hero | Hindi
Rating: 4.4 out of 5(59 ratings)
5,600 students

Learn STAAD PRO | From Zero to Hero | Hindi

Learn Staad Pro by Following Step by Step instructions
Created byAshish Pandit
Last updated 1/2025
Hindi

What you'll learn

  • Introduction of STAAD Pro Software.
  • Manual Analysis in Excel & verify in Staad Pro
  • Steel Structure Tower Design
  • RCC Design

Course content

1 section125 lectures12h 46m total length
  • 0_TOPICS COVERED IN STAAD PRO V8i7:35
  • 1_ BASIC INFORMATION NEEDS TO KNOW BEFORE LEARNING STAAD PRO SOFTWARE6:18
  • 2 - INTRODUCTION TO STARTUP SCREEN IN STAAD PRO3:28
  • 3 - BASIC CONFIGURATION IN STAAD PRO5:33
  • 4 - CREATING A NEW PROJECT IN STAAD PRO3:53
  • 5 - GRAPHICAL USER INTERFACE OF STAAD PRO5:39
  • 6 - WORKING WORKFLOW IN STAAD PRO1:51
  • 7 - UNDERSTANDING CO ORDINATE SYSTEM ABSOLUTE4:06
  • 8 - ENTERING NODES CO ORDINATES IN STAAD PRO3:20
  • 9 - UNDERSTANDING VIEWS IN STAAD PRO3:16
  • 10 DRAWING BEAMS BY CONNECTING NODES4:16
  • 11 - DEFINING AND ASSIGNING CROSS SECTION OF BEAM8:32
  • 12 - DEFINING AND ASSIGNING SUPPORTS TO NODES8:16
  • 13 - DEFINING AND ASSIGNING DEAD LOAD TO STRUCTURE8:14
  • 14 - DEFINING POINT LOAD, UDL AND MOMENT7:05
  • 15 - ASSIGNING POINT LOAD UDL & MOMENT3:13
  • 16 - GETTING STARTED WITH ANALYZING THE BEAM2:59
  • 17 - GETTING SFD, BMD, SUPPORT REACTIONS, PRINT RESULTS8:42
  • 18 - Manually V/S. Staad Pro ( Analysis Of Simply Supported Beam )7:53
  • 19 - UNDERSTANDING FRAME AND CREATING NODES (ANALYSIS OF 2D FRAME)4:21
  • 20 - DRAW BEAMS COLUMNS APPLY SECTION SIZES AND SUPPORT CONDITIONS (ANALYSIS OF4:02
  • 21 - CREATING AND ASSIGNING LOADS TO FRAME (ANALYSIS OF 2D FRAME)5:50
  • 22 - VIEW RESULTS OF FRAME (ANALYSIS OF 2D FRAME)6:41
  • 23 - UNDERSTANDING 3D FRAME (ANALYSIS OF 3D FRAME)2:59
  • 24 - ENTERING NODES AND DRAW BEAMS, COLUMNS (ANALYSIS OF 3D FRAME)5:52
  • 25 - CREATING AND DEFINING MATERIAL PROPERTY AND SUPPORTS (ANALYSIS OF A 3D FRAM4:45
  • 26 - CREATING AND ASSIGNING LOADS TO FRAME (ANALYSIS OF 3D FRAME)14:13
  • 27 - CREATING LOAD COMBINATIONS (ANALYSIS OF 3D FRAME)4:53
  • 28 - DEFINING AND ASSIGNING THE DESIGN PARAMETERS AND COMMANDS (ANALYSIS OF 3D F7:16
  • 29 - REDESIGNING THE SECTIONS AND VIEWING RESULTS OF DESIGN (ANALYSIS AND DESIGN7:06
  • 30 - VIEWING OUTPUT RESULTS (ANALYSIS AND DESIGN OF 3D FRAME)2:05
  • 31 - HOW TO USE STRUCTURE WIZARD4:39
  • 32 - UNDERSTANDING BAY FRAME5:35
  • 33 - USING MOVE COMMAND4:41
  • 34 - USING TRANSLATION REPEAT COMMAND6:55
  • 35 - USING ROTATE COMMAND3:08
  • 36 - USING MIRROR COMMAND4:37
  • 37 - USING VIEW AND ZOOM COMMANDS9:10
  • 38 - Add Nodes in Beams7:48
  • 39 - Various Beam Adding Options4:59
  • 40 - USING CIRCULAR REPEAT COMMAND3:23
  • 41 - View Individual Floors Separately8:30
  • 42 - CREATE A NEW MATERIAL4:36
  • 43 - Access Steel and Wood Database3:54
  • 44 - Concept of Moment Release8:37
  • 45 - Full Moment Release7:42
  • 46 - Partial Moment Release3:13
  • 47 - Offsetting the Beam Members4:51
  • 48 - Miscellaneous Specification Options5:12
  • 49 - Working Flow Map of a Project3:27
  • 50 - Reading Architectural Drawing3:56
  • 51 - Defining the Base Nodes4:33
  • 52 - Modeling of the Building Floors3:05
  • 53 - Modeling of the First Floor Balcony3:17
  • 54 - Modeling of the Second Floor Balcony & Correction in Top Floor2:43
  • 55 - Preliminary Design of Slab3:52
  • 56 - Preliminary Design of Beam3:26
  • 57 - Concept of Column Preliminary Design3:32
  • 58 - Calculation of the Dead Load9:08
  • 59 - Calculation of the Live Load3:55
  • 60 - Calculation of the Preliminary size of the column6:28
  • 61 - Defining The Beam and Column Sections2:50
  • 62 - Concept of the Cracked Sections3:51
  • 63 - Assigning Cracked Section Properties3:01
  • 64 - Understanding and Assigning the Master Slave Node9:24
  • 65 - Assigning the Floor Diaphragm in Select Series 6 Version of Staad Pro4:40
  • 66 - Introduction to Base Shear Vb5:19
  • 67 - Introduction to Seismic Weight of the Building3:33
  • 68 - Horizontal Acceleration Coefficient Ah, Zone Factor Z6:23
  • 69 - Design Acceleration Coefficient (Sa/g)5:07
  • 70 - Response Reduction Factor (R)2:35
  • 71 - Importance Factor (I)2:49
  • 72 - Live Load Reduction2:03
  • 73 - Introduction to Dynamic Analysis3:06
  • 74 - Understanding Storey Shear2:35
  • 75 - Basic Concept of Staircase and Measuring Staircase Dimensions7:45
  • 76 - Calculating the Self Weight Dead Load of Staircase11:48
  • 77 - Calculating the Floor Finish Load6:09
  • 78 - Calculating the Live Load on Staircase2:45
  • 79 - Solving Error while Generating Seismic Load Calculations2:31
  • 80 - Defining the Seismic Parameters12:13
  • 81 - Defining the Load Case Details2:32
  • 82 - Assigning the Seismic Loads4:58
  • 83 - Calculating the Wall Load4:49
  • 84 - Assigning the Wall Load10:40
  • 85 - Introduction to the Self Weight of the Slab6:15
  • 86 - Assigning the Self Weight of the Slab16:54
  • 87 - Application of the Floor Finish Load3:26
  • 88 - Application of the Partition Load3:09
  • 89 - Application of the Live Load8:07
  • 90 - Introduction to IS 875 : Part 38:28
  • 91 - Calculation of Design Wind Speed (Part 1)5:49
  • 92 - Calculation of Design Wind Speed (Part 2)4:42
  • 93 - Calculation of Design Wind Pressure6:58
  • 94 - Definition of Wind Load in Staad Pro9:58
  • 95 - Application of Wind Load5:58
  • 96 - Defining the Secondary Beam5:46
  • 97 - Assigning the Load to the Washroom6:10
  • 98 - Defining the New Beams for Staircase Load Distribution6:11
  • 99 - Applying the Dead Load of the Staircase7:14
  • 100 - Correcting the Floor Load Error1:13
  • 101 - Application of the Staircase Live Load3:29
  • 102 - CALCULATION OF LIVE LOAD WEIGHT ON SEISMIC LOADING3:12
  • 103 - Introduction to the staad editor3:47
  • 104 - Copying the Loads For Seismic Weight5:43
  • 105 - Defining the Mass source2:33
  • 106 - Checking for Modeling Errors3:09
  • 107 FINAL STAAD EDITOR FILE1:52
  • 108 - Codal Provision for load combination5:00
  • 109 - Making manual load combination7:22
  • 110 - Generating auto load combinations2:21
  • 111 - Error correction in load combination2:17
  • 112 - Design of Structural Members2:12
  • 113 - Defining the Design Parameters6:42
  • 114 - Defining the Design Commands2:48
  • 115 - Studying the Design Results6:54
  • 117 - Beam Design Results10:14
  • 118 - Column Design Results4:00
  • 119 - Providing the Reinforcement to the Column10:00
  • 120 - DESIGN OF CIRCULAR WATER TANK (USEFUL INFORMATION)3:49
  • 121 - DESIGN OF CIRCULAR WATER TANK (RESTING ON GROUND)31:38
  • 122 - DESIGN OF CIRCULAR WATER TANK (ELEVATED)27:25
  • 123 - Design of G + 3 Storey Building With Foundation21:44
  • 124 - Designing Steel Tower Using IS 800 : 2007 (Limit State Design)16:45
  • 125 - DESIGN OF R C C BLDG WITH FOOTING IN STAAD PRO24:39

Requirements

  • No Experience Required

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,

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)

Who this course is for:

  • Civil Engineers who want to pursue career in structural engineering
  • Civil Engineering Students who want to learn structural designing
  • Engineers who wish to do structural analysis and design of a building