COURS.

Structural Design for Lateral Loads and Stability

Webinaire / les 17, 18 et 19 mai 2021 /
Code : 12-0515-ONL21

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  • APERÇU
  • PROGRAMME
  • FORMATEUR

APERÇU

Veuillez noter :
This course is held online over 3 days on the following schedule (All times in Eastern Time Zone):

9:30 am to 5:30 pm Eastern (Will include the usual breaks and lunch)

After participating in the course you will be able to do the following:

  • Incorporate the basic principles of horizontal loads and their effect on buildings when designing structures
  • Apply knowledge of the changes made to NBCC to different structural bracing systems
  • Develop different vertical systems to resist lateral loads on concrete and steel structures, floor diaphragm, and foundation walls
  • Analyze the effect of lateral forces on bracing and structural systems
  • Design braced frames and concrete shear walls for buildings

Description:
The structural stability of buildings depends on their ability to withstand vertical & horizontal loads. It is essential to understand stability & loads calculations based on the recent National Building Code of Canada. Lateral loads lead to increases in the internal forces & can affect the stability of the whole structure.

This seminar demonstrates the effect of lateral loads on structures, the requirements & designs of different lateral resisting systems. We will discuss theoretical concepts & practical methods to design lateral structural systems in different structures. To ensure a thorough understanding, the course also includes several design examples that will be solved in workshops.

Course Outline:

  • Wind load theory & calculations
  • Special wind cases
  • Earthquake load theory & calculations
  • Layout considerations of lateral resisting systems
  • Different types of lateral bracing systems in steel structures
  • Types of lateral resisting systems in concrete structures
  • Braced frames design
  • Concrete shear walls types & analysis
  • Diaphragm action & analysis
  • Lateral earth pressure & shoring types

Who Should Attend:
Civil Engineers • Structural Engineers • Designers • Consulting Architects & Engineers • Construction Engineers • Fabricators & Manufacturers of Structural Systems • Municipal Building Officials • Field Reviewers



Veuillez noter :
This course is held online over 3 days on the following schedule (All times in Eastern Time Zone):

9:30 am to 5:30 pm Eastern (Will include the usual breaks and lunch)

Horaire : 9:30 AM - 5:30 PM EDT

Exigences techniques Pour les utilisateurs de PC
OS: Windows XP, 2003 Server, Vista, 7, 8, 10
Navigateur :
Internet Explorer 7.0 ou plus récent
Mozilla Firefox 4.0 ou plus récent
Google Chrome 5.0 ou plus récent

Pour les utilisateurs de Macintosh
OS: Mac OS X 10.6 (Snow Leopard), 10.7 (Lion), 10.8 (Mountain Lion) ou plus récent
Navigateur :
Safari 3.0 ou plus récent
Mozilla Firefox 4.0 ou plus récent
Google Chrome 5.0 ou plus récent

iOS
Appareil :
iPad 1 ou plus récent, iPhone 3GS ou plus récent, iPod Touch (3rd generation) ou plus récent
OS: iOS 6 ou plus récent

Android
OS: Android 2.2 ou supérieur

voir le programme complet

PROGRAMME

Veuillez noter :
This course is held online over 3 days on the following schedule (All times in Eastern Time Zone):

9:30 am to 5:30 pm Eastern (Will include the usual breaks and lunch)

Day I

  • Welcome, Introduction, Workshop Preview, Learning Outcomes, and Assessment Method
  • National Building Code of Canada 2015
  • Wind Load Theory and Calculations
  • Special Wind Cases
  • Design Examples
  • Earthquake Load Theory and Calculations
  • Design Examples
  • Layout Considerations of Lateral Resisting Systems
  • Different Types of Lateral Bracing Systems in Steel Structures
  • Types of Lateral Resisting Systems in Concrete Structures
  • Workshop I

Under instructor guidance, participants work on a case study with given wind loads and lateral loads for bracing columns and beams.

Day II

  • Concrete Shear Walls Types and Analysis
  • Design Example
  • Braced Frames Design
  • Example
  • Workshop II

Under instructor guidance, participants work on a case study with braced frames, rigid frames, and concrete shear walls.

Day III

  • Diaphragm Action and Analysis
  • Design Examples
  • Lateral Earth Pressure and Shoring Types
  • Foundation Design Considerations
  • Conclusion and Review

Under instructor guidance, participants work on a case study for diaphragm design of concrete floors, types of diaphragms using steel structures and the need for floor bracings.

Questions and Answers, Feedback on Achievement of Learning Outcomes

FORMATEUR

Hossam Saleh, Ph.D., P.Eng.

Dr. Saleh has over 23 years of experience in teaching, research, design and consulting in the area of structural design in Canada, Germany and the Middle East.

He is experienced in steel, concrete; including pre-stressed and pre-caste concrete structures, concrete technology and participated in different research topics such as; walls of high strength concrete, fibre reinforced concrete and precast concrete columns. Dr. Saleh has been teaching in Germany, Canada, Dubai and Egypt, and assisted in publication of a structural design concrete book in Germany based on the European Codes. 

Dr. Saleh has worked with worldwide renowned consulting offices such as Halcrow Yolles in Toronto, Buro Happold in Dubai and NORR Ltd. in Toronto. He worked with developers, architects and project managers on high rise, midrise office, residential and institutional buildings. Dr. Saleh is the founder of Can Consulting Hansa Inc. in Toronto.



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UNITÉS & FRAIS
  • 2,1 Unités de formation continue (UFC)
  • 21 Heures de développement professionnel (HDP)

1995 $ (+ TPS/TVQ)

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