AS4100:2020 - Design of Steel Structures including Connection Design as per Australian Standards

Master the AS4100:2020 standard with our Steel Structure Design and Connection Design course. Learn key principles, design strategies, and practical skills as per Australian Standards. Boost your expertise in Structural Steel engineering

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Detailed Curriculum

Lectures you shall have Lifetime access to by enrolling in this course

1. 1.1 Introduction to Uniform Beams and Uniform Columns - Structural Steel Members
2. 1.2 Understanding Structural Steel Section Properties - Second Moment of Area, Sectional Modulus etc.
3. 1.4 Rectangular Hollow Sections, Square Hollow Sections and Circular Hollow Sections-RHS/SHS/CHS
4. 1.5 Capacity Reduction Factors for Bending, Shear and Compression as per AS4100
5. 1.6 Introduction to Steel Buildings in Australia - Steel Structural System Followed with Details
6. 1.7 PEMB Steel Buildings - Pre Engineered Metal Building systems and components
7. 1.8 Different Structural Steel systems and their behavior
1. 2.1 Understanding Different types of Members in Steel Structures
2. 2.2 Design of Tension Members as per AS4100
3. 2.3 Design of Compression members as per AS4100:2020
4. 2.4 Design Calculations in ETABS for Compression members with Hand Calculation Verification
5. 2.5 Design of Laterally Supported Structural Steel Beams
6. 2.6 Design of Laterally Unsupported Structural Steel beams
7. 2.7 Values of Kt, Kl and Kr for Structural Steel beams
8. 2.8 Detailed Calculations to calculate Bending capacity of Laterally Unsupported Steel beams
9. 2.9 Calculation of Shear Capacity of Structural Steel beams
10. 2.10 Detailed Calculations in ETABS for Laterally Unsupported Steel beams
11. 2.11 Design of Cantilever Steel beams with Detailed Calculations
1. 3.1 Types of Structural Steel Bolts - Different Grades and Strength Parameters
2. 3.2 Snug Tight, Bearing Type and Friction Type Bolts as per AS4100:2020
3. 3.3 Tension, Shear and Bearing Capacity of Steel Bolts
4. 3.4 Thumbrules to calculate Capacity of Structure Steel Bolts
5. 3.5 Calculation of Capacity of Weld for different grades and thickness
6. 3.6 Difference in GP- SP - General purpose and Structural purpose Welding
7. 3.7 Design of Structural Steel Pin as per AS4100
1. 4.1 Introduction to the Structural Steel Mezzanine floors in Australia
2. 4.2 Modelling of Mezzanine Floor in ETABS
3. 4.3 Modelling of Secondary beams and Deck floors
4. 4.4 Application of Seismic loads in ETABS as per AS1170 on Mezzanine Steel Structure
5. 4.5 Defining Load Combinations, Mass Source and P-Delta in ETABS
6. 4.6 Design Results and Verification in ETABS
1. 5.1 Introduction to the Cold Form Steel members
2. 5.2 Purlins and Girts in PEMB System - Detailed Explaination
3. 5.3 Understanding Moment Capacity Tables for Purlins and Girts
4. 5.4 Structure Design of C-Purlins in Ex-Facta Software - Strength and Serviceability Design
5. 5.5 Structure Design of Purlins for 5 KPa Imposed Load on Mezzanine
6. 5.6 Modelling of Structure Steel Mezzanine in ETABS
7. 5.7 Defining Load Patterns in ETABS
8. 5.8 Defining Load Combinations as per AS1170
9. 5.9 Design Calculations Check for Steel Structure as per AS4100:2020
10. 5.10 Design of Anchors to support the Mezzanine on the RCC Floor
1. 6.1 Introduction to Structural Steel Foot Over Bridges Constructed in Australia
2. 6.2 Design of Cold Form Beams to support Deck
3. 6.3 Modelling of Structural Steel Foot Over Bridge in ETABS
4. 6.4 Application of Dead Loads, Live Loads and Seismic Loads on the foot Over Bridge
5. 6.5 Calculation of Wind Load on Foot over bridge Structure considering Open Structure
6. 6.6 Load Combinations as per AS117.0 for Wind and Seismic Loads
7. 6.7 Design of Steel Structure of Foot Over Bridge as per AS4100:2020
8. 6.8 Design of Structural Steel Connections as per AS4100:2020 for Foot Over Bridge Design
1. 7.1. Introduction to Structural Steel Pipe Racks
2. 7.2 Modelling of Structural Steel Piperacks with Plan and Elevation Bracings
3. 7.3 Application of Dead Loads, Piping loads and Seismic Loads to the Pipe Rack
4. 7.4 Preliminary Design for Gravity and Piping Loads as per AS4100:2020
5. 7.5 Calculation of Wind Speed as per AS1170.2 for Open Steel Structure
6. 7.6 Application of Wind Load on Open Steel Structures
7. 7.7 Strength and Serviceability Design of Pipe Racks Steel Structure
8. 7.8 Design of base plate for Axial load and Bending Moment as per AS4100:2020
9. 7.9 Desin of RCC Pedestals as per AS3600:2018
10. 7.10 Design of RCC Foundations for Axial Load and Bending Moment
11. 7.11 Design of Moment Connection for Steel Moment Resistant Frame
12. 7.12 Design of Shear Connection for Steel Frame of Pipe Rack
13. 7.13 Design of Bracing connection as per AS4100:2020
1. A.1 Mechanical and Chemical Anchors Meaning and Detailed Explaination
2. A.2 Types of Failure in Mechanical and Chemical Anchors
3. A.3 Detailed discussion on Mechanical and Chemical Anchors
4. A.4 Detailed Design Calculations of Anchors as per AS5216:2021

About this course

$49.00
66 lessons
24 hours of video content

Sample Lecture 1

Design of Industrial Structural Steel Pipe Rack Preview as per AS4100:2020

Sample Lecture-2

Design of Foot Over Bridge Preview as per AS4100:2020

Sample Lecture-3

Design of Industrial Mezzanine Preview as per AS4100:2020

COURSE CURRICULUM

Shear & Moment Connection Design of Steel Structures as per AS4100:2020

Design of Shear Connection, Moment Connection, Base Plates, Splicing and Anchor bolts as per Australian Standards AS4100:2020 & Bentley Ram Connection Software. The Calculations and Code Provisions are explained with theoretical knowledge and practical applicability.
Design of Structural Steel Mezzanine Floors as per AS4100:2020

Structural Arrangement Planning and Modelling of Steel Structures with Shear and Moment Connected Frames. The Dead Load, Live load, and Seismic Load are calculated as per AS1170—All parts. P-Delta Analysis and ETABS relevant parameters including Cold-form Sections Design are discussed with the practical example of 3D modeling.
Design of Structural Steel Compression Members, Tension Members, Bending Members & Beam-Columns

Steel Section Properties like Moment of Inertia, Sectional Modulus, Major-Minor Axis, Slenderness Ratio and Radius of Gyration are explained in detail with examples. Laterally Supported members, laterally unsupported beams, Compression members, Tension members and Beam-Columns are taught in detail with practical definitions, Hand calculations and Excel Sheets.
Design of Mechanical and Chemical Anchors as per AS5216:2021

In-depth exploration of the design of mechanical and chemical anchors in accordance with AS 5216:2021. You will learn about different anchor types, load considerations, design calculations, and best installation practices. Through practical examples and case studies in Profis Engineering software, you will gain the skills needed to effectively design and implement anchor systems.
Structural Design of Steel Pipe Racks and Foot Over Bridge as per AS4100:2020

Design of Structural Steel Pipe Rack and Foot Over bridge with Loading calculation as per AS1170. Modelling and Analysis is explained with Design parameters.
Dynamic Analysis and Structure Design of Steel Structure

Structural Planning and Modelling of Steel Structure in ETABS. Application of Response Spectrum Parameters as per Dynamic Analysis is explained in detail. Dynamic analysis results in ETABS are explained with Understanding Mode behavior and Seismic parameters as per AS1170.4.

Bonus material

Includes following additional resources to help you Learn and Evolve

Connection Design as per AS4100:2020

Connection design such as Welded Connections, Bolted Connections, Shear Connections, Moment Connections, Base Plates etc. as per AS4100:2020 is exclusively taught in this course.
ETABS Model Files

ETABS model files used in this course are exclusively shared with the enrolled participants and shall be a ready reference for Professional Tasks.
Download Detailed Calculations EBook as per AS4100:2020

Detailed Calculation of Steel beams, columns, beam columns, Tension members, and base plates. are shared to help you design the steel structures as per AS4100;2020 theoretically without any black box assumptions.

This course includes:

On completion of this course, the participant will be awarded a professional certificate that will act as proof for recruiters /for placement agencies that you have relevant skills and knowledge in the Structural Steel domain.

20 hours on-demand video
Certificate of completion
Queries Revert within 2 Working days
Full lifetime access

PROFESSIONAL UPSKILL OPPORTUNITIES FOR

Structural Engineers

Entry Level Structural Engineers

Young Engineering Graduates

Civil Engineer

PEMB Engineers

Heavy Industrial Engineering Professionals

Anyone who wants to build a Career in Steel Structural Engineering in Australia / New Zealand

Certificate of Completion

On completion of this course, the participant will be awarded a professional certificate

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