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Structural Analysis & Design of Buildings using Staad Pro
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ENSURE STRENGTH & STABILITY
ENSURE DURABILITY
ENSURE DEFLECTION CONTROL
ENSURE CRACK CONTROL
BS-8110 clauses equivalent to IS-456 regarding Strength,Stability,Servicebility
Tests-01
Assignment-01
TIPS TO SCHEME -01
TIPS TO SCHEME -02
SCHEME OF A MIDRISE-PART 1
SCHEME OF A MIDRISE-PART 2
Test-02
Assignment-02
INITIALISATION-01
INITIALISATION-02
AXES SYSTEM
04.01 CREATING NODES
04.02 MODELLING BEAMS
04.03 SHORTCUTS TO EASE MODELLING
04.04 LABELS & OPTIONS
04.05 EDITING OPTIONS
04.06 ALL LEVELS & COLUMNS
04.07 SLABS - CONCEPTS
04.08 INTRO TO SLAB AS ELEMENT
04.09 MODELLING STAIR
04.10 IMPORT FROM CAD
05.01 SELECTION : MORE OPTIONS
05.02 UTILITIES
05.03 MATERIAL & PROPERTY DEFENITION
05.04 ROTATING COLUMNS BY BETA ANGLE
05.05 CHECKING ERRORS IN STAAD
05.06 BEST MODELLING PRACTICES
05.07 STAAD EDITOR
O5.08 STAAD HELP OPTIONS
06.01 PIN vs FIXED SUPPORTS - CONCEPT
06.02 SUPPORT ASSIGNMENT IN STAAD
DEAD LOAD CALCULATIONS -01
DEAD LOAD -02 LANDSCAPE LOAD ON SLAB
DEAD LOAD-03 SUNKEN SLAB
DEAD LOAD -04 STAIR LOAD
DEAD LOAD - 05 POINT LOAD ON SLAB
DEADLOAD -06 LOADS ON BEAMS & COLUMNS
LIVE LOAD
WIND LOAD BASICS
WIND PRESSURE
WIND Cpe
WHAT IS EARTHQUAKE
4 VIRTUES OF SEISMIC RESISTANCE
SEISMIC DESIGN PHILOSOPHY
1893 : 2016 - Provisions
1893 : 2016 Significance of R value
LATERAL MASS SOURCE
DEAD LOAD - SELFWEIGHT
DEAD LOAD -SLAB & FINISHES
DEAD LOAD -CUTOUT AREA
DEAD LOAD - ADDING UP TO TERRACE
WATER PROOFING & WATER TANK LOAD
LIFT LOAD
STAIR LOAD
WALL LOAD ON BEAMS
LOAD ON MIDLANDING BEAM
LIVE LOAD APPLICATION
SEISMIC MASS APPLICATION IN STAAD
SEISMIC LOAD DEFENITION IN STAAD
WIND LOAD APPLICATION IN STAAD
WHY LOADS NEED TO BE SEPARATELY APPLIED
WHY WE NEED LOAD COMBINATIONS
LOAD COMBINATIONS AS PER CODE
NEED OF FACTORED & UNFACTORED COMBINATION
CREATING LOAD COMBINATION IN STAAD
WHAT IS AN ENVELOPE
ADDITIONAL VIDEO - WHAT IS AN ENVELOPE
ENVELOPE IN STAAD
STRUCTURAL ANALYSIS
WIND DEFLECTIONS CHECK
STORY DRIFT CHECK
SHEAR WALL TO CONTROL DRIFT
SHEAR WALL MODELLING -02
ERROR CORRECTIONS IN SHEAR WALLS
FINAL DRIFT CHECK AFTER CORRECTIONS
BEAM DESIGN FORCES(THEORY)
COLUMN DESIGN FORCES (THEORY)
RESULT INTERPRETATION & ENVELOPE
PRINCIPLES FOR DESIGN OF SLAB
SLAB DETAILING PRINCIPLES
SCHEME
MODELLING
PROPERTY
DEAD LOAD
LIVE LOAD
LOAD APPLICATION IN STAAD
DL APPLICATION -02
LIVE LOAD & STAIR MODEL
STAIR+SUPPORT BASICS
ASSIGNING SUPPORTS
WIND-01
WIND-02
Seismic Basics
SEISMIC-02
Seismic Mass Creation
Wind Load generation
Load combination
Master slave + Deflections check
Shear wall modelling
Shear wall correction
Reference Load & Diaphragm in Staad
Envelops & Result Interpretation
Slab Design -One way
Slab Design- One way continuous
Slab Design - One way continuous -02
Slab 2 way
2 way slabs continuous
Beam Design -01
Beam Detailing
Beam Detailing -02
Beam Design+Detailing
TORSION-01
Torsion-02
Beam Design -02
Slab as Element
Column Design Principles-01
Slenderness moment
Column Design -01
Column Design -02
Column -03
Isolated Footing 1
Punching Shear
MODULE 1 : ROLE OF A STRUCTURAL ENGINEER
ENSURE STRENGTH & STABILITY
ENSURE DURABILITY
ENSURE DEFLECTION CONTROL
ENSURE CRACK CONTROL
BS-8110 clauses equivalent to IS-456 regarding Strength,Stability,Servicebility
Tests-01
Assignment-01
MODULE 2 : SCHEME OF A BUILDING
TIPS TO SCHEME -01
TIPS TO SCHEME -02
SCHEME OF A MIDRISE-PART 1
SCHEME OF A MIDRISE-PART 2
Test-02
Assignment-02
MODULE 3 : INITIALISATION
INITIALISATION-01
Preview
INITIALISATION-02
AXES SYSTEM
MODULE 4 : MODELLING
04.01 CREATING NODES
04.02 MODELLING BEAMS
04.03 SHORTCUTS TO EASE MODELLING
04.04 LABELS & OPTIONS
04.05 EDITING OPTIONS
04.06 ALL LEVELS & COLUMNS
04.07 SLABS - CONCEPTS
04.08 INTRO TO SLAB AS ELEMENT
04.09 MODELLING STAIR
04.10 IMPORT FROM CAD
MODULE 5 : MORE OPTIONS ,TOOLS & UTILITIES
05.01 SELECTION : MORE OPTIONS
05.02 UTILITIES
05.03 MATERIAL & PROPERTY DEFENITION
05.04 ROTATING COLUMNS BY BETA ANGLE
05.05 CHECKING ERRORS IN STAAD
05.06 BEST MODELLING PRACTICES
05.07 STAAD EDITOR
O5.08 STAAD HELP OPTIONS
MODULE 6 : SUPPORT CONDITIONS
06.01 PIN vs FIXED SUPPORTS - CONCEPT
06.02 SUPPORT ASSIGNMENT IN STAAD
MODULE 7 : LOAD CALCULATIONS
DEAD LOAD CALCULATIONS -01
DEAD LOAD -02 LANDSCAPE LOAD ON SLAB
DEAD LOAD-03 SUNKEN SLAB
DEAD LOAD -04 STAIR LOAD
DEAD LOAD - 05 POINT LOAD ON SLAB
DEADLOAD -06 LOADS ON BEAMS & COLUMNS
LIVE LOAD
WIND LOAD BASICS
WIND PRESSURE
WIND Cpe
WHAT IS EARTHQUAKE
4 VIRTUES OF SEISMIC RESISTANCE
SEISMIC DESIGN PHILOSOPHY
1893 : 2016 - Provisions
1893 : 2016 Significance of R value
LATERAL MASS SOURCE
MODULE 8 : LOAD APPLICATION IN STAAD
DEAD LOAD - SELFWEIGHT
DEAD LOAD -SLAB & FINISHES
DEAD LOAD -CUTOUT AREA
DEAD LOAD - ADDING UP TO TERRACE
WATER PROOFING & WATER TANK LOAD
LIFT LOAD
STAIR LOAD
WALL LOAD ON BEAMS
LOAD ON MIDLANDING BEAM
LIVE LOAD APPLICATION
SEISMIC MASS APPLICATION IN STAAD
SEISMIC LOAD DEFENITION IN STAAD
WIND LOAD APPLICATION IN STAAD
MODULE 9 : LOAD COMBINATIONS
WHY LOADS NEED TO BE SEPARATELY APPLIED
WHY WE NEED LOAD COMBINATIONS
LOAD COMBINATIONS AS PER CODE
NEED OF FACTORED & UNFACTORED COMBINATION
CREATING LOAD COMBINATION IN STAAD
WHAT IS AN ENVELOPE
ADDITIONAL VIDEO - WHAT IS AN ENVELOPE
ENVELOPE IN STAAD
MODULE 10: STRUCTURAL ANALYSIS
STRUCTURAL ANALYSIS
WIND DEFLECTIONS CHECK
STORY DRIFT CHECK
SHEAR WALL TO CONTROL DRIFT
SHEAR WALL MODELLING -02
ERROR CORRECTIONS IN SHEAR WALLS
FINAL DRIFT CHECK AFTER CORRECTIONS
BEAM DESIGN FORCES(THEORY)
COLUMN DESIGN FORCES (THEORY)
RESULT INTERPRETATION & ENVELOPE
MODULE 11: STRUCTURAL DESIGN
PRINCIPLES FOR DESIGN OF SLAB
SLAB DETAILING PRINCIPLES
ADDITIONAL LIVE CLASS VIDEOS
SCHEME
MODELLING
PROPERTY
DEAD LOAD
LIVE LOAD
LOAD APPLICATION IN STAAD
DL APPLICATION -02
LIVE LOAD & STAIR MODEL
STAIR+SUPPORT BASICS
ASSIGNING SUPPORTS
WIND-01
WIND-02
Seismic Basics
SEISMIC-02
Seismic Mass Creation
Wind Load generation
Load combination
Master slave + Deflections check
Shear wall modelling
Shear wall correction
Reference Load & Diaphragm in Staad
Envelops & Result Interpretation
Slab Design -One way
Slab Design- One way continuous
Slab Design - One way continuous -02
Slab 2 way
2 way slabs continuous
Beam Design -01
Beam Detailing
Beam Detailing -02
Beam Design+Detailing
TORSION-01
Torsion-02
Beam Design -02
Slab as Element
Column Design Principles-01
Slenderness moment
Column Design -01
Column Design -02
Column -03
Isolated Footing 1
Punching Shear
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