COURS.

Welding Design and Metal Fatigue for Structural Engineers

Dorval, QC / les 23 et 24 mars 2020 /
Code : 10-0301-2376

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  • APERÇU
  • PROGRAMME
  • FORMATEUR
  • ENDROIT

APERÇU

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

  • Analyze joints using fundamental knowledge of various material strengths
  • Design welded joints using basic weld design principles
  • Prevent failures by using knowledge of metal fatigue
  • Apply the fundamentals of welded joints in structures

Description
Welding provides architects & engineers with an economical technique for complete freedom in structural design & development. The widespread recognition of welding as a safe means of making structural connections has come about only after years of diligent efforts & heavy documentation of research findings & successes.

This course will discuss the different welding techniques used in the structural engineering fields, residual stresses, and how to minimize weld distortion. It will also focus on the means of achieving safe designs for welded structural connections, providing participants with the necessary skills to ensure the long-term safety of their structures. Issues of static load & fatigue will be discussed, along with possible design improvements.

Course Outline:

  • Introduction to Welded Construction
  • Welding Process
  • Performance of Welded Structures under Static Loading
  • Welded Joint Design
  • Residual Stress and Distortion
  • Ways to Minimize Distortion and Prevent Weld Failures
  • Performance of Welded Structures under Fatigue Loading
  • Welded Design Improvements
  • Workshop

Who Should Attend:
Fabricators & Engineers who are involved in the design & assessment of welded structures • Engineers who are involved in the Fatigue Analysis of Structures Subjected to Repeated Loading • Structural Consulting Engineers • Project Managers • Construction Engineers.

voir le programme complet

PROGRAMME

Daily Schedule
8:00 Registration & Coffee (Day 1 only)
8:30 Seminar begins
12:00 Lunch (provided)
4:30 Adjournment

There is an one‐hour lunch break each day in addition to a refreshments and networking break each morning and afternoon. Lunch and refreshments are provided.

Day I

Welcome, Introduction, Workshop Preview, Learning Outcomes, and Assessment Method

Design of Welded Structures: Overview of the Course

  • Introduction to welded construction
  • Fundamentals of strength of materials
  • Welded joint design
  • Metal fatigue
  • Welded design improvements
  • Workshop

Introduction to Welded Construction

  • Welding importance to structural field
  • Why welded construction
  • How good is a weld
  • Weld quality and inspection
  • Design for welding
  • Weldability and welding procedures
  • Welding symbols
  • Weld layout

Fundamentals of Strength of Materials

  • Tensile, compressive, and shear properties of materials
  • Engineering stress-strain properties
  • True stress-strain properties
  • Hardness testing, correlations and conventions

Performance of Welded Structures

Behavior Under Static Loading (Welded Joint Design)

  • Types of welds
  • Types of welded joints
  • Static design of welded joints

Workshop

Participants work on hands-on exercises under the instructor’s guidance on both days. Workshop exercises include the following topics:

  • Design of welded joints under static loading
  • Fatigue damage calculations
  • Design of welded joints against fatigue failure

Day II

Performance of Welded Structures

Behavior Under Repeated Loading (Metal Fatigue)

  • Loading spectrum
  • Cycle counting technique
  • Fatigue properties
  • Stress-life and strain-life approaches in fatigue analysis
  • Mean stress effect
  • Notch geometry effect
  • Potential modes of fatigue failures in welded structures
  • Fatigue of welded joints

Welded Design Improvements

  • General guidelines
  • Recommendations

Workshop

Participants work on hands-on exercises under the instructor’s guidance on both days. Workshop exercises include the following topics:

  • Design of welded joints under static loading
  • Fatigue damage calculations
  • Design of welded joints against fatigue failure

Questions and Answers, and Feedback on Achievement of Learning Outcomes

FORMATEUR

Ashraf Dabayeh, M.A.Sc., Ph.D.

Ashraf Dabayeh, M.A.Sc., Ph.D.

Ashraf is currently a section chief of structures with Bombardier Aerospace.

Dr. Dabayeh received his M.A.Sc. and PhD from the University of Waterloo, specializing in fatigue and crack growth analysis of metallic materials, structural analysis and design of steel structures, stress analysis using the finite element method, multiple-site damage analysis, and composite and metallic repairs of aging aircraft materials. With over fourteen years of work experience with IMP Aerospace, L-3 Communications, and Bombardier Aerospace, he has been involved in the design and repair of metallic structures in the aerospace and automotive industries. The author of several scientific publications, Dr. Dabayeh has delivered papers at different North American and European scientific conferences on topics related to fatigue and fracture mechanics of metallic and composite structures. He has also contributed to scientific textbooks in the same field.



ENDROIT

L'endroit sera bientôt annoncé

Bien que le lieu ne soit pas officiellement confirmé, les cours du CIPE ont généralement lieu aux endroits suivants :

Hampton Inn & Suites Montréal (Dorval)
1900, route Transcanadienne
Dorval (Montréal) QC  H9P 2N4

Veuillez d'abord vérifier avec le CIPE que le lieu a bien été confirmé avant de faire des réservations ou arrangements de voyage.

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  • 14 Heures de développement professionnel (HDP)
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