Etabs-Professional Rc Building Design (updated 12/2022)

ETABS CSI

What you'll learn

Learners can able to Apply IS provisions and computational tool in structural design & detailing.

Learners can able to Prepare detailed drawings and bar bending schedule of column, footing, slab, beams, staircase.

Learners can able to learn the modelling and design of multy storey structures in the Etabs software.

Learners can able to export the software design results to excel and cross verify with the excel design sheet as per IS code provisions

Learners can able to design, detail and model different stair case

Learners can able to design, detail and model structures against earthquake forces as per IS 1893 code

Learners can able to design, detail and model structures against wind forces as per IS 875 Part-03

Requirements

Basic civil engineering knowledge is sufficient. No experience is required. Everything will be explained in the course.

Description

1. Planning and Drafting the Residential , Commercial and Industrial buildings in the Auto-cad software.2. Understanding and reading the architectural plan and preparing the basic information.3. Developing the center line diagram of the beams and columns for all the floors (PLINTH BEAM AND ROOF BEAMS OF ALL THE FLOORS) corresponding given  architectural plan.4. Learning the modelling, defining the materials, sections, assigning the materials and sections, analyzing the structure, designing in ETABS software.5. Preparation of the Excel sheet as per IS code provisions for designing the individual structural members-Footing, column, beam, slab, staircase, retaining wall etc.6. Exporting the software design results to excel and comparing it with the design excel sheet prepared.7. Grouping of beams, columns, footings and slabs based on the loading and members dimensions.8. Obtaining the final design results and deciding the final dimensions of beams, columns, slabs and footings.9. Preparing the Detailed drawings as per the IS code provisions to execute in the site.10. Preparation of bar bending schedule.11. Design of earthquake resistant structures as per IS 1893 IS code.12. Design of wind resistant structures as per IS 875 PART-03.DETAIL DESCRIPTION OF COURSE IS GIVEN BELOW-Drawing a plan of a residential building. [Framed structure, G+1, minimum of 1200sft].-Drawing beam layout of plinth, ground floor and first floor.-Drawing column layout for the above plan. [Use of proper grid lines with proper column numbering.]-Modeling the above structure using ETABS. [Modelling, analyzing and designing].-Analysis of above model. [Applying appropriate analysis techniques, Exporting column reactions for foundation design.]-Design and Detailing of Isolated footing. [Column and Footing grouping, Design one typical isolated footing, & foundation layout.].-Detailed drawing of Column & foundation. -Preparing bar bending schedule.-Detailed drawing of Plinth beam. -Preparing bar bending schedule.-Detailed drawing of ground floor beam. -Preparing bar bending schedule.-Detailed drawing of ground floor slab. -Preparing bar bending schedule.-Design and Detailing of first floor beam and slab. -Preparing bar bending schedule.-Design and Detailing of dog legged stair case and landing beam. -Preparing bar bending schedule.

Overview

Section 1: PROJECT 1: AUTO CAD INTRODUCTION

Lecture 1 1. INTRODUCTION TO COURSE

Lecture 2 2. HOW TO READ THE ARCHITERAL PLAN OF BUILDING

Lecture 3 3. DEVELOPING THE CENTRE LINE FOR COLUMNS

Lecture 4 4. MRKING THE FLOOR BEAMS POSITIONS

Lecture 5 5. MRKING THE ROOF BEAMS POSITIONS

Section 2: PROJECT 1: ETABS SOFT WARE, PROJECT FILE, AUTO CAD FILE

Lecture 6 ETABS INSTALLATION VIEDO

Section 3: PROJECT 1: PROJECT EXECUTION

Lecture 7 1. INTRODUCTION TO ETABS-SETTING THE UNITS, GRID PREPARATION

Lecture 8 2. PREPARATION OF GRID LINE AS PER AUTO CAD PLAN

Lecture 9 3. EXPLAINING PLAN, ELEVATION AND SECTION

Lecture 10 4. EXPLANATION OF DEFINING THE MATERIAL PROPERTIES

Lecture 11 5. EXPLANATION OF DEFINING THE SECTION PROPERTIES

Lecture 12 6. SETTING PELIMINARY DIMENSIONS OF THE COLUMNS

Lecture 13 7. SETTING THE ORIENTATION OF THE COLUMN

Lecture 14 8. SETTING THE PRELIMINARY DIMENSIONS OF THE BEAMS

Lecture 15 9. ASSIGNING AND DRAWING COLUMNS IN THE ETABS

Lecture 16 10. ASSIGNING AND DRAWING PLINTH BEAM IN THE ETABS

Lecture 17 11. ASSIGNING AND DRAWING FLOOR AND ROOF BEAMS IN THE ETABS

Lecture 18 12. FINAL SELECTION OF THE BEAMS DIMENSIONS

Lecture 19 13. ORIENTING THE COLUMNS

Lecture 20 14. DEFINING, ASSIGNING AND DRAWING THE SLABS

Lecture 21 15. APPLICATION OF DEAD LOADS ON STRUCTURE

Lecture 22 16. APPLICATION OF LIVE LOAD ON THE STRUCTURE

Lecture 23 17. ANALYSIS AND RESULTS

Lecture 24 18. UNDERSTANDING THE LOAD COMBINATIONS

Lecture 25 19. OBTAINING THE SUPPORT REACTIONS

Section 4: PROJECT 1: FOOTING SECTION

Lecture 26 1. CONCENTRIC ISOLATED FOOTING DESIGN

Lecture 27 2. DEVELOING EXCEL SHEET FOR FOOTING DESIGN

Lecture 28 3. DEVELOING EXCEL SHEET FOR FOOTING DESIGN

Lecture 29 4. DEVELOING EXCEL SHEET FOR FOOTING DESIGN

Lecture 30 5. DEVELOING EXCEL SHEET FOR FOOTING DESIGN

Lecture 31 6. DEVELOING EXCEL SHEET FOR FOOTING DESIGN

Lecture 32 7. DEVELOING EXCEL SHEET FOR FOOTING DESIGN

Lecture 33 8. DEVELOING EXCEL SHEET FOR FOOTING DESIGN

Lecture 34 9. MARKING OF CENTRE OF COLUMN AND FOOTING

Lecture 35 10. PREPARATION OF REINFORCEMENT DETAILS OF FOOTING

Section 5: PROJECT 1: COLUMN SECTION

Lecture 36 1. UNI-AXIAL LOADED COLUMN DESIGN

Lecture 37 2. PREPARATION OF COLUMN GROUPING FOR DESIGN

Lecture 38 3. PREPARATION OF EXCEL FOR THE COLUMN DESIGN

Lecture 39 4. PREPARATION OF EXCEL FOR THE COLUMN DESIGN

Lecture 40 5. PREPARATION OF EXCEL FOR THE COLUMN DESIGN

Lecture 41 6. PREPARATION OF EXCEL FOR THE COLUMN DESIGN

Lecture 42 7. PREPARATION OF EXCEL FOR THE COLUMN DESIGN

Lecture 43 8. COLUMN GROUPING AND REINFORCEMENT

Lecture 44 9. FOOTING AND COLUMN GROUPING AND REINFORCEMENT

Lecture 45 10 INTRODUCTION TO BI-AXIAL LOADED COLUMN

Lecture 46 11. BI-AXIAL LOADED COLUMN DESIGN

Lecture 47 12. DEVELOPMENT OF EXCEL FOR BI-AXIAL LOADED COLUMN-METHOD-1

Lecture 48 13. DEVELOPMENT OF EXCEL FOR BI-AXIAL LOADED COLUMN-METHOD-2

Section 6: PROJECT 1: ETABS OPTIONS

Lecture 49 1. EDIT OPTIONS

Lecture 50 2. EDIT OPTIONS

Lecture 51 3. VIEW OPTIONS

Lecture 52 4. VIEW OPTIONS

Lecture 53 5. DEFINE OPTIONS

Lecture 54 6. DEFINE OPTIONS

Lecture 55 7. DEFINE OPTIONS

Lecture 56 8. DEFINE OPTIONS

Lecture 57 9. DRAW OPTIONS

Lecture 58 10. SELECT OPTIONS

Lecture 59 11. ASSIGN OPTIONS

Lecture 60 12. ASSIGN OPTIONS

Lecture 61 13. ASSIGN OPTIONS

Lecture 62 14. ASSIGNING LOAD OPTIONS

Lecture 63 15. ASSIGNING LOAD OPTIONS

Lecture 64 16. ANALYZING THE STRUCTURE

Lecture 65 17. RESULTS OBTAINED FROM MODEL

Lecture 66 18. RESULTS OBTAINED FROM ANALYSIS

Section 7: PROJECT 1: BEAM SECTION

Lecture 67 1. OBTAINING BEAM FORCES OF ROOF

Lecture 68 2. OBTAINING BEAM FORCES OF FLOOR

Lecture 69 3. OBTAINING BEAM FORCES OF PLINTH

Lecture 70 4. CREATING THE BEAM GROUPING FOR ROOF BEAM

Lecture 71 5. CREATING THE BEAM GROUPING FOR FLOOR BEAM

Lecture 72 6. CREATING THE BEAM GROUPING FOR PLINTH BEAM

Lecture 73 7. DEVELOPING THE EXCEL FOR LONGITUDIONAL REINFORCEMENT

Lecture 74 8. DEVELOPING THE EXCEL FOR SHEAR REINFORCEMENT

Lecture 75 9. PREPARATION OF DETAILS FOR DESIGN OF BEAM

Lecture 76 10. Designing the beam as per Codes-1

Lecture 77 11. Designing the beam as per Codes-2

Lecture 78 12. Designing the beam as per Codes-3

Lecture 79 13. Designing the floor beam as per codes

Lecture 80 14. Developing the reinforcement of beam of roof beam

Lecture 81 15.Developing the reinforcement of beam of floor beam

Lecture 82 16. Checking the spacing of reinforcement distribution

Lecture 83 17. Providing the beam reinforcement in horizontal layers

Section 8: PROJECT 1: SLAB SECTION

Lecture 84 1. Design of one way slab

Lecture 85 2. Design of two way slab

Lecture 86 3. Development of Excel for one way slab design-01

Lecture 87 4. Development of Excel for one way slab design-02

Lecture 88 5. Development of Excel for two way slab design-01

Lecture 89 6. Development of Excel for two way slab design-02

Lecture 90 7. Designing the roof slab-01

Lecture 91 8. Designing the roof slab-02

Lecture 92 9. Designing the roof slab-03

Lecture 93 10. SLAB REINFORCEMENT DETAILS

Section 9: DESIGN SECTION

Lecture 94 1. INTRODUCTION TO DESIGN

Lecture 95 2. DESIGN OF BEAM

Lecture 96 3. DESIGN OF COLUMN

Section 10: PROJECT 1: DETAILING OF DESIGNED MEMBERS

Lecture 97 1. DETAILING OF FOOTING-PLAN

Lecture 98 2. DETAILING OF FOOTING-LONGITUDIONAL SECTION

Lecture 99 3. DETAILING OF FOOTING AND COLUMN

Lecture 100 4. DETAILING OF COLUMN

Lecture 101 5. DETAILING OF COLUMN-LONGITUDIONAL CROSS SECTION

Lecture 102 6. FOOTING GROUPING AND DETAILS

Lecture 103 7. COLUMN GROUPING AND DETAILS

Lecture 104 8. SLAB REINFORCEMENT

Lecture 105 9. TORSIONAL REINFORCEMENT IN SLAB

Lecture 106 10. DETAILING OF PLINTH BEAM

Lecture 107 11. DETAILING OF ROOF BEAM

Lecture 108 12. DETAILING OF CANTILEVER BEAM

Lecture 109 13. REINFORCEMENT IN LAYERS

Section 11: PROJECT 1: DESIGN OF STAIR CASE

Lecture 110 1. INTRODUCTION TO STAIR CASE

Lecture 111 2. DESIGN OF DOG LEGGED STAIR CASE-01

Lecture 112 3. DESIGN OF DOG LEGGED STAIR CASE-03

Lecture 113 4. STAIR CASE DETAILING

Lecture 114 5. MODELLING OF STAIR CASE IN ETABS

Lecture 115 6. DESIGN OF STRIGHT STAIRS

Lecture 116 7. DESIGN OF PRACTICAL STAIR CASE

Lecture 117 8. DRAFTING IN THE AUTO CAD

Lecture 118 9. MODELLING IN THE ETBS

Section 12: DESIGN AND DETAILING OF RETAINING WALL

Lecture 119 1. INTRODUCTION TO RETAINING WALL

Lecture 120 2. DEAPTH OF FOUNDATION AND PROPORTINING OF WALL

Lecture 121 3. DESIGN OF STEM-FINDING OF STEEL PERCENTAGE

Lecture 122 4. CURTAILMENT OF STEM REINFORCEMENT

Lecture 123 5. STABILITY ANALYSIS-01

Lecture 124 6. STABILITY ANALYSIS-02

Lecture 125 7. CHECKING OF FOS

Lecture 126 8. DESIGN OF HEEL-01

Lecture 127 9. DESIGN OF HEEL-02

Lecture 128 10. DESIGN OF HEEL-03

Lecture 129 11. DESIGN OF TOE

Lecture 130 12. REINFORCEMENT DETAILING- LONGITUDIONAL SECTION

Lecture 131 13. REINFORCEMENT DETAILING-PLAN AND CURTAILMENT OF STEM

Section 13: DESIGN AND DETAILING OF PORTAL FRAME

Lecture 132 1. PORTAL FRAME DESIGN PROCEDURE

Lecture 133 2. DESIGN OF SLAB

Lecture 134 3. DETAILING OF SLAB

Lecture 135 4. ANALYSIS OF SINGLE PORTAL FRAME

Lecture 136 5. ANALYSIS OF PORTAL FRAME-01

Lecture 137 6. ANALYSIS OF PORTAL FRAME-02

Lecture 138 7. ANALYSIS OF PORTAL FRAME-03

Lecture 139 8. DESIGN BENDING MOMENTS AND SHEAR FORCE

Lecture 140 9. DESIGN OF BEAM-MID SPAN

Lecture 141 10. DESIGN OF BEAM-END SPAN

Lecture 142 11. DETAILIMG OF BEAM

Lecture 143 12. DESIGN OF COLUMN

Lecture 144 13. DESIGN OF FOOTING

Lecture 145 14. CHECK FOR PUNCHING SHEAR

Lecture 146 15. CHECK FOR ONE WAY SHEAR

Lecture 147 16. DETAILING OF PORTAL FRAME IN AUTOCAD-01

Lecture 148 17. DETAILING OF PORTAL FRAME IN AUTOCAD-02

Lecture 149 18. DETAILING OF PORTAL FRAME IN AUTOCAD-01

Lecture 150 19. MODELLING AND ANALYSIS OF PORTAL FRAME IN ETABA

Lecture 151 20. DESIGN OF PORTAL FRAME IN ETABS

Section 14: PROJECT 2: DESIGN OF COMMERCIAL BUILDING

Lecture 152 1. INTRODUCTION TO SECOND PROJECT

Lecture 153 2. POSITIONING THE COLUMNS

Lecture 154 3. DRAWING TTHE CENTRE LINE DRAWING

Lecture 155 4. DECIDING THE COLUMN DIMENSIONS

Lecture 156 5. GRID LINE PREPARATION

Lecture 157 6. GRID LINE PREPARATION IN ETABS

Lecture 158 7. DEFINING AND DRAWING THE COLUMNS AND BEAMS

Lecture 159 8. DEFINING AND DRAWING THE SLAB AND LOAD APPLICATION

Lecture 160 9. DEFINING AND DRAWING THE WALL

Lecture 161 10. CREATING THE OPENING IN THE WALL

Lecture 162 11. CONSIDERATION OF DEAD LOAD AS PER IS 875 PART 1

Lecture 163 12. DEFINING THE EARTHQUAKE LOAD

Lecture 164 13. DEFINING THE EARTHQUAKE LOAD

Lecture 165 14. DEFINING THE LOAD COMBINATION

Lecture 166 15. EARTHQUAKE RESULTS PLOTS

Lecture 167 16. FINDING SEISMIC WEIGHT OF STRUCTURE

Lecture 168 17. FINDING SEISMIC WEIGHT IN ETABS

Civil Engineering Students.,Civil Engineering Graduates.,Diplomo Students and Graduates