Introduction To Steel Design Eurocode 3 With Staad Pro Ce
What you'll learn
FRAMING FOR STEEL STRUCTURE
SHORTCUT TO DESIGN SIMPLE STRUCTURAL ELEMENTS
BECOME AN INDEPENT ENGINEER
DESIGN STEEL CONNECTIONS
Requirements
GRADUATE BENG OR BSc. Civil Engineer
Description
In this comprehensive course, participants will delve into the fundamentals of steel design using Eurocode 3 standards, coupled with practical applications using STAAD Pro CONNECT EDITION software. Designed for engineers, architects, and students aspiring to master steel structure design, this course offers a hands-on approach to understanding the principles and practices of structural engineering.Course Objectives:Mastering Eurocode 3 Standards: Participants will gain a thorough understanding of the Eurocode 3 standards for steel design, including the latest updates and amendments.
Through detailed explanations and real-world examples, students will grasp the essential concepts, such as material properties, member design, connections, and stability considerations.Practical Implementation with STAAD Pro: Leveraging the powerful features of STAAD Pro CONNECT EDITION, participants will learn to translate theoretical knowledge into practical design solutions. From creating 3D models to analyzing and optimizing steel structures, students will develop proficiency in using industry-standard software for structural analysis and design.Structural Modeling and Analysis: Through hands-on exercises and guided tutorials, students will learn to model complex steel structures accurately.
They will explore various loading conditions, including gravity loads, lateral loads, and seismic forces, and analyze the structural response to ensure safety and performance.Design Optimization and Code Compliance: With a focus on efficiency and code compliance, participants will learn techniques for optimizing steel structures while meeting Eurocode 3 design requirements.
Emphasis will be placed on selecting appropriate sections, detailing connections, and verifying structural stability to achieve optimal design solutions.Real-world Case Studies and Projects: The course will include real-world case studies and design projects, allowing participants to apply their knowledge and skills to practical engineering scenarios.
Through project-based learning, students will tackle challenges commonly encountered in steel structure design and gain valuable experience in problem-solving and decision-making.Prerequisites:Basic understanding of structural engineering principles Familiarity with software tools for structural analysis and design (preferably STAAD Pro) Knowledge of Eurocode 3 standards is beneficial but not required Who Should Attend:Civil and structural engineers Architects and building designers Students pursuing degrees in civil engineering or related fields Join us on a journey to explore the fascinating world of steel design with Eurocode 3 and unleash the full potential of STAAD Pro CONNECT EDITION for structural engineering excellence. Whether you're a seasoned professional or a budding engineer, this course offers valuable insights and practical skills to enhance your expertise in steel structure design.
Overview
Lecture 1 DOWNLOADS
Section 1: Introduction to Eurocode
Lecture 2 DAY 1 Introduction
Lecture 3 DAY 2 SYSTEM FRAMING
Lecture 4 DAY 3 REQUIREMENTS FOR STEEL
Lecture 5 DAY 4 LIMIT STATE
Lecture 6 DAY 5 LOAD COMBINATION ACCORDING TO EC0
Section 2: Manual Design of Steel Elements by stress
Lecture 7 Day 6 tension member manual design
Lecture 8 day 7 tension member with staad pro
Lecture 9 Day 8 section classification
Lecture 10 DAY 9 SECTION CLASSIFICATION MANUALLY
Lecture 11 DAY 10 SECTION CLASSIFICATION WITH STAAD
Lecture 12 DAY 11 COLUMN SECTION CLASSIFICATION
Lecture 13 DAY 12 COLUMN DESIGN MANUAL
Lecture 14 DAY 13 COLUMN DESIGN WITH STEEL FOR LIFE
Lecture 15 DAY 13a COLUMN DESIGN WITH STAAD
Lecture 16 DAY 14 OF FULLY RESTRAINED BEAM MANUAL
Lecture 17 DAY 15 OF FULLY RESTRAINED BEAM STAAD
Lecture 18 DAY 16 UNRESTRAINED MEMBER
Section 3: G+10 STEEL BUILDING
Lecture 19 day 17 primary beams and columns creation
Lecture 20 day 18 member releases to primary beams
Lecture 21 day 19 assigning properties to primary beams and stanchion
Lecture 22 day 20 secondary beam creation
Lecture 23 day 21 moment release on secondary beam
Lecture 24 day 22 full storey creation
Lecture 25 day 23 bracing members
Lecture 26 day 24 support assignment
Section 4: LOADING
Lecture 27 day 25 dead load
Lecture 28 Day 26 LIVE load
Lecture 29 day 27 wind load
Lecture 30 day 28 load combination
Lecture 31 Day 29 post processing 1
Lecture 32 day 30 post processing part 2
Section 5: CONNECTIONS
Lecture 33 day 31 steel design
Lecture 34 day 32 BEAM COLUMN FLANGE connection design
Lecture 35 day 33 BEAM COLUMN web connection design
Lecture 36 DAY 34 BASE PLATE PART
fresh graduate from university
Published 5/2024
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 1.53 GB | Duration: 3h 18m
Download
*
What you'll learn
FRAMING FOR STEEL STRUCTURE
SHORTCUT TO DESIGN SIMPLE STRUCTURAL ELEMENTS
BECOME AN INDEPENT ENGINEER
DESIGN STEEL CONNECTIONS
Requirements
GRADUATE BENG OR BSc. Civil Engineer
Description
In this comprehensive course, participants will delve into the fundamentals of steel design using Eurocode 3 standards, coupled with practical applications using STAAD Pro CONNECT EDITION software. Designed for engineers, architects, and students aspiring to master steel structure design, this course offers a hands-on approach to understanding the principles and practices of structural engineering.Course Objectives:Mastering Eurocode 3 Standards: Participants will gain a thorough understanding of the Eurocode 3 standards for steel design, including the latest updates and amendments.
Through detailed explanations and real-world examples, students will grasp the essential concepts, such as material properties, member design, connections, and stability considerations.Practical Implementation with STAAD Pro: Leveraging the powerful features of STAAD Pro CONNECT EDITION, participants will learn to translate theoretical knowledge into practical design solutions. From creating 3D models to analyzing and optimizing steel structures, students will develop proficiency in using industry-standard software for structural analysis and design.Structural Modeling and Analysis: Through hands-on exercises and guided tutorials, students will learn to model complex steel structures accurately.
They will explore various loading conditions, including gravity loads, lateral loads, and seismic forces, and analyze the structural response to ensure safety and performance.Design Optimization and Code Compliance: With a focus on efficiency and code compliance, participants will learn techniques for optimizing steel structures while meeting Eurocode 3 design requirements.
Emphasis will be placed on selecting appropriate sections, detailing connections, and verifying structural stability to achieve optimal design solutions.Real-world Case Studies and Projects: The course will include real-world case studies and design projects, allowing participants to apply their knowledge and skills to practical engineering scenarios.
Through project-based learning, students will tackle challenges commonly encountered in steel structure design and gain valuable experience in problem-solving and decision-making.Prerequisites:Basic understanding of structural engineering principles Familiarity with software tools for structural analysis and design (preferably STAAD Pro) Knowledge of Eurocode 3 standards is beneficial but not required Who Should Attend:Civil and structural engineers Architects and building designers Students pursuing degrees in civil engineering or related fields Join us on a journey to explore the fascinating world of steel design with Eurocode 3 and unleash the full potential of STAAD Pro CONNECT EDITION for structural engineering excellence. Whether you're a seasoned professional or a budding engineer, this course offers valuable insights and practical skills to enhance your expertise in steel structure design.
Overview
Lecture 1 DOWNLOADS
Section 1: Introduction to Eurocode
Lecture 2 DAY 1 Introduction
Lecture 3 DAY 2 SYSTEM FRAMING
Lecture 4 DAY 3 REQUIREMENTS FOR STEEL
Lecture 5 DAY 4 LIMIT STATE
Lecture 6 DAY 5 LOAD COMBINATION ACCORDING TO EC0
Section 2: Manual Design of Steel Elements by stress
Lecture 7 Day 6 tension member manual design
Lecture 8 day 7 tension member with staad pro
Lecture 9 Day 8 section classification
Lecture 10 DAY 9 SECTION CLASSIFICATION MANUALLY
Lecture 11 DAY 10 SECTION CLASSIFICATION WITH STAAD
Lecture 12 DAY 11 COLUMN SECTION CLASSIFICATION
Lecture 13 DAY 12 COLUMN DESIGN MANUAL
Lecture 14 DAY 13 COLUMN DESIGN WITH STEEL FOR LIFE
Lecture 15 DAY 13a COLUMN DESIGN WITH STAAD
Lecture 16 DAY 14 OF FULLY RESTRAINED BEAM MANUAL
Lecture 17 DAY 15 OF FULLY RESTRAINED BEAM STAAD
Lecture 18 DAY 16 UNRESTRAINED MEMBER
Section 3: G+10 STEEL BUILDING
Lecture 19 day 17 primary beams and columns creation
Lecture 20 day 18 member releases to primary beams
Lecture 21 day 19 assigning properties to primary beams and stanchion
Lecture 22 day 20 secondary beam creation
Lecture 23 day 21 moment release on secondary beam
Lecture 24 day 22 full storey creation
Lecture 25 day 23 bracing members
Lecture 26 day 24 support assignment
Section 4: LOADING
Lecture 27 day 25 dead load
Lecture 28 Day 26 LIVE load
Lecture 29 day 27 wind load
Lecture 30 day 28 load combination
Lecture 31 Day 29 post processing 1
Lecture 32 day 30 post processing part 2
Section 5: CONNECTIONS
Lecture 33 day 31 steel design
Lecture 34 day 32 BEAM COLUMN FLANGE connection design
Lecture 35 day 33 BEAM COLUMN web connection design
Lecture 36 DAY 34 BASE PLATE PART
fresh graduate from university
Published 5/2024
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 1.53 GB | Duration: 3h 18m
Download
*