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Robot Structural Analysis (Steel Structure)

Posted By: ELK1nG
Robot Structural Analysis (Steel Structure)

Robot Structural Analysis (Steel Structure)
Last updated 10/2020
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
Language: English | Size: 2.40 GB | Duration: 4h 25m

The full steel structure course using eurocode

What you'll learn
Warehouse Modeling in Robot structural analysis
Design of all elements of warehouse
wind loads Simulation
Connections Design
Portal frame Design
Truss Design
Requirements
basic knowledge of structural Engineering
Robot structural analysis program
Description
In this course, you will learn how to model and analyze and design a steel warehouse from scratch using Eurocode. you will learn how to design all elements (columns, rafters, bracing, wind columns, side rails, purlins…) you will learn how to draw the cladding, assign loads and generate wind loads. you will learn how to design connectionsBeam - beam connectionbeam - column connectionbase connection. you will continue the course by new truss project. you will learn how to model truss project and how to design the lower and bottom chords. and you will learn how to design the posts, diagonals and truss columns.

Overview

Section 1: Introduction

Lecture 1 Overview

Lecture 2 Preferences and job preferences

Section 2: Warehouse Modeling

Lecture 3 Axis

Lecture 4 Zoom & view

Lecture 5 Columns Definition and placement

Lecture 6 Columns group

Lecture 7 Rafters

Lecture 8 Side rails

Lecture 9 Wind columns

Lecture 10 Side rails

Lecture 11 Eave beams

Lecture 12 Purlins

Lecture 13 Display

Lecture 14 Bracing

Lecture 15 Cladding

Section 3: Loads Definition

Lecture 16 Loads Definition

Lecture 17 Wind load

Lecture 18 Release

Lecture 19 cladding & bracing

Lecture 20 Supports

Section 4: Results & Design

Lecture 21 Analysis and Results

Lecture 22 Purlins results

Lecture 23 Combinations

Lecture 24 Side rails Design

Lecture 25 Bracing Design

Lecture 26 Purlins Design

Lecture 27 Eave beams Design

Lecture 28 Wind Columns Design

Lecture 29 1-Rafter Design

Lecture 30 Columns Design

Lecture 31 2-Rafter Design

Section 5: Connections Design

Lecture 32 Beam-Beam connection

Lecture 33 Column-beam connection

Lecture 34 Base connection

Section 6: Truss Project

Lecture 35 Axis

Lecture 36 Columns

Lecture 37 Truss definition

Lecture 38 Truss grouping

Lecture 39 Side rails

Lecture 40 Purlins

Lecture 41 Wind columns

Lecture 42 Eave beams

Lecture 43 Bracing

Lecture 44 Cladding

Lecture 45 loads definition

Lecture 46 Wind simulation

Lecture 47 Release & supports

Lecture 48 Calculation

Lecture 49 Results and combinations

Lecture 50 Purlins & side rails Design

Lecture 51 Wind columns & eave beams &bracing Design

Lecture 52 Upper and lower chord Design

Lecture 53 Posts and diagonals Design

Lecture 54 Columns Design

Lecture 55 Displacements

Lecture 56 Base Connection

Section 7: Bonus

Lecture 57 Get Any course for up to 90% off

Civil engineering students,Mechanical engineering Students,Civil and mechanical engineers,Drawings