Robot Structural Analysis (Steel Building)
Last updated 10/2020
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
Language: English | Size: 2.48 GB | Duration: 3h 55m
Last updated 10/2020
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
Language: English | Size: 2.48 GB | Duration: 3h 55m
Steel building Modeling,Analysis and design of all elements, with wind and Seismic Load By Eurocode.
What you'll learn
Steel Building Modeling and Analysis
Design of all elements (Columns,Beams..)
Wind and Seismic Load Application By Eurocode
Concrete Footing Design
Connections Design (Base and Frame Knee Connection)
Requirements
Basic Knowledge of structural Engineering
Robot Structural Analysis Program
Description
In this Course you will learn how to model,analyse and Design all elements of Steel BuildingFirstly we will set preferences and job preferences (Design code,,materials…)You will learn how to model all elements of building (Columns,Beams,slab,Bracings…)You will learn how to define Wind and Seismic load by Eurocode.You will learn how to design all elements (Columns,Beams,Composite beams,BracingYou will learn how to design the foundation of structureYou will learn how to design the connections (Base connection,Frame knee connection)
Overview
Section 1: Introduction
Lecture 1 Overview
Lecture 2 Preferences
Lecture 3 Job preferences
Section 2: Modeling
Lecture 4 Stories Definition
Lecture 5 Axis Definition
Lecture 6 View
Lecture 7 Sections Definition
Lecture 8 Columns modeling
Lecture 9 Columns groups
Lecture 10 Rafters Definition and Modeling
Lecture 11 Selection
Lecture 12 Special selection
Lecture 13 Rafters Grouping
Lecture 14 Secondary beams
Lecture 15 Secondary beams Grouping
Lecture 16 Display
Lecture 17 Slab
Section 3: Loads
Lecture 18 Loads Definition
Lecture 19 Assign loads
Lecture 20 Wind Load
Lecture 21 Beam Release
Section 4: Results
Lecture 22 Results
Lecture 23 Combinations
Section 5: Design of elements
Lecture 24 Secondary beams
Lecture 25 Composite Beams
Lecture 26 Composite Beams 2
Lecture 27 Rafters Y Design
Lecture 28 Rafters X Design
Lecture 29 Columns Design
Section 6: Seismic Load
Lecture 30 Seismic Introduction
Lecture 31 Seismic Definition
Lecture 32 Base shear results
Lecture 33 Results
Lecture 34 Diagrams for building
Lecture 35 Stories
Lecture 36 Drift Checking
Section 7: V Bracing Model
Lecture 37 V Bracing
Lecture 38 Bracing groups
Lecture 39 Bracing Parameters
Lecture 40 Base shear
Lecture 41 Diagrams for bars
Lecture 42 Combinations
Lecture 43 Columns and Rafters Design
Lecture 44 Bracing Design
Lecture 45 Drift Checking
Lecture 46 X Drift Verification
Section 8: Foundation Design
Lecture 47 Footing Design
Lecture 48 Second Footing
Section 9: Connections Design
Lecture 49 Base connection
Lecture 50 Frame Knee Connection
Section 10: Bonus
Lecture 51 Get Any course for up to 90% off
Civil and Mechanical Engineers,Civil and Mechanical Engineering Students