/  Structural Design For Non Structural Engineers Training

Structural Design For Non Structural Engineers Training

BMC Training provides a training course in Structural Design For Non Structural Engineers in Construction and Civil Engineering Training

Course Title
Venue
Start Date
End Date
  • Kuala Lumpur
    5 - 7 - 2020
    9 - 7 - 2020
  • Rome
    5 - 7 - 2020
    9 - 7 - 2020
  • Barcelona
    5 - 7 - 2020
    9 - 7 - 2020
  • Zurich
    5 - 7 - 2020
    9 - 7 - 2020
  • Dubai
    12 - 7 - 2020
    16 - 7 - 2020
  • Paris
    12 - 7 - 2020
    16 - 7 - 2020
  • Hong Kong
    12 - 7 - 2020
    16 - 7 - 2020
  • Dubai
    19 - 7 - 2020
    23 - 7 - 2020
  • Paris
    19 - 7 - 2020
    23 - 7 - 2020
  • Hong Kong
    19 - 7 - 2020
    23 - 7 - 2020
  • Istanbul
    26 - 7 - 2020
    30 - 7 - 2020
  • Bali
    26 - 7 - 2020
    30 - 7 - 2020
  • Singapore
    26 - 7 - 2020
    30 - 7 - 2020
  • Washington
    26 - 7 - 2020
    30 - 7 - 2020
  • Dubai
    26 - 7 - 2020
    30 - 7 - 2020
  • Paris
    26 - 7 - 2020
    30 - 7 - 2020
  • Hong Kong
    26 - 7 - 2020
    30 - 7 - 2020
  • London
    2 - 8 - 2020
    6 - 8 - 2020
  • Madrid
    2 - 8 - 2020
    6 - 8 - 2020
  • Munich
    2 - 8 - 2020
    6 - 8 - 2020
  • Berlin
    2 - 8 - 2020
    6 - 8 - 2020
  • New York
    2 - 8 - 2020
    6 - 8 - 2020
  • Dubai
    9 - 8 - 2020
    13 - 8 - 2020
  • Paris
    9 - 8 - 2020
    13 - 8 - 2020
  • Hong Kong
    9 - 8 - 2020
    13 - 8 - 2020
  • Istanbul
    16 - 8 - 2020
    20 - 8 - 2020
  • Bali
    16 - 8 - 2020
    20 - 8 - 2020
  • Singapore
    16 - 8 - 2020
    20 - 8 - 2020
  • Washington
    16 - 8 - 2020
    20 - 8 - 2020
  • Kuala Lumpur
    23 - 8 - 2020
    27 - 8 - 2020
  • Rome
    23 - 8 - 2020
    27 - 8 - 2020
  • Barcelona
    23 - 8 - 2020
    27 - 8 - 2020
  • Zurich
    23 - 8 - 2020
    27 - 8 - 2020
  • Kuala Lumpur
    27 - 9 - 2020
    1 - 10 - 2020
  • Rome
    27 - 9 - 2020
    1 - 10 - 2020
  • Barcelona
    27 - 9 - 2020
    1 - 10 - 2020
  • Zurich
    27 - 9 - 2020
    1 - 10 - 2020
  • Dubai
    6 - 9 - 2020
    10 - 9 - 2020
  • Paris
    6 - 9 - 2020
    10 - 9 - 2020
  • Hong Kong
    6 - 9 - 2020
    10 - 9 - 2020
  • London
    13 - 9 - 2020
    17 - 9 - 2020
  • Madrid
    13 - 9 - 2020
    17 - 9 - 2020
  • Munich
    13 - 9 - 2020
    17 - 9 - 2020
  • Berlin
    13 - 9 - 2020
    17 - 9 - 2020
  • New York
    13 - 9 - 2020
    17 - 9 - 2020
  • Istanbul
    20 - 9 - 2020
    24 - 9 - 2020
  • Bali
    20 - 9 - 2020
    24 - 9 - 2020
  • Singapore
    20 - 9 - 2020
    24 - 9 - 2020
  • Washington
    20 - 9 - 2020
    24 - 9 - 2020
  • Dubai
    20 - 9 - 2020
    24 - 9 - 2020
  • Paris
    20 - 9 - 2020
    24 - 9 - 2020
  • Hong Kong
    20 - 9 - 2020
    24 - 9 - 2020
  • London
    18 - 10 - 2020
    22 - 10 - 2020
  • Madrid
    18 - 10 - 2020
    22 - 10 - 2020
  • Munich
    18 - 10 - 2020
    22 - 10 - 2020
  • Berlin
    18 - 10 - 2020
    22 - 10 - 2020
  • New York
    18 - 10 - 2020
    22 - 10 - 2020
  • Dubai
    25 - 10 - 2020
    29 - 10 - 2020
  • Paris
    25 - 10 - 2020
    29 - 10 - 2020
  • Hong Kong
    25 - 10 - 2020
    29 - 10 - 2020
  • Istanbul
    4 - 10 - 2020
    8 - 10 - 2020
  • Bali
    4 - 10 - 2020
    8 - 10 - 2020
  • Singapore
    4 - 10 - 2020
    8 - 10 - 2020
  • Washington
    4 - 10 - 2020
    8 - 10 - 2020
  • Kuala Lumpur
    11 - 10 - 2020
    15 - 10 - 2020
  • Rome
    11 - 10 - 2020
    15 - 10 - 2020
  • Barcelona
    11 - 10 - 2020
    15 - 10 - 2020
  • Zurich
    11 - 10 - 2020
    15 - 10 - 2020
  • Kuala Lumpur
    15 - 11 - 2020
    19 - 11 - 2020
  • Rome
    15 - 11 - 2020
    19 - 11 - 2020
  • Barcelona
    15 - 11 - 2020
    19 - 11 - 2020
  • Zurich
    15 - 11 - 2020
    19 - 11 - 2020
  • Dubai
    22 - 11 - 2020
    26 - 11 - 2020
  • Paris
    22 - 11 - 2020
    26 - 11 - 2020
  • Hong Kong
    22 - 11 - 2020
    26 - 11 - 2020
  • London
    1 - 11 - 2020
    5 - 11 - 2020
  • Madrid
    1 - 11 - 2020
    5 - 11 - 2020
  • Munich
    1 - 11 - 2020
    5 - 11 - 2020
  • Berlin
    1 - 11 - 2020
    5 - 11 - 2020
  • New York
    1 - 11 - 2020
    5 - 11 - 2020
  • Istanbul
    8 - 11 - 2020
    12 - 11 - 2020
  • Bali
    8 - 11 - 2020
    12 - 11 - 2020
  • Singapore
    8 - 11 - 2020
    12 - 11 - 2020
  • Washington
    8 - 11 - 2020
    12 - 11 - 2020
  • Dubai
    8 - 11 - 2020
    12 - 11 - 2020
  • Paris
    8 - 11 - 2020
    12 - 11 - 2020
  • Hong Kong
    8 - 11 - 2020
    12 - 11 - 2020
  • London
    20 - 12 - 2020
    24 - 12 - 2020
  • Madrid
    20 - 12 - 2020
    24 - 12 - 2020
  • Munich
    20 - 12 - 2020
    24 - 12 - 2020
  • Berlin
    20 - 12 - 2020
    24 - 12 - 2020
  • New York
    20 - 12 - 2020
    24 - 12 - 2020
  • Dubai
    27 - 12 - 2020
    31 - 12 - 2020
  • Paris
    27 - 12 - 2020
    31 - 12 - 2020
  • Hong Kong
    27 - 12 - 2020
    31 - 12 - 2020
  • Istanbul
    13 - 12 - 2020
    17 - 12 - 2020
  • Bali
    13 - 12 - 2020
    17 - 12 - 2020
  • Singapore
    13 - 12 - 2020
    17 - 12 - 2020
  • Washington
    13 - 12 - 2020
    17 - 12 - 2020
  • Kuala Lumpur
    6 - 12 - 2020
    10 - 12 - 2020
  • Rome
    6 - 12 - 2020
    10 - 12 - 2020
  • Barcelona
    6 - 12 - 2020
    10 - 12 - 2020
  • Zurich
    6 - 12 - 2020
    10 - 12 - 2020

Course Description

Construction is the largest industry in the world and anything constructed needs to be designed first. Structural Engineering deals with the analysis and design aspects, the basic purpose of which is to ensure a safe, functional and economical structure. While designing, the designer constantly interacts with specialists like architects, operational managers, etc. Once the design is finalized, the implementation takes involvement of people to handle aspects like statutory approvals, planning, quality assurance, material procurement, etc. The entire exercise can be undertaken in a highly coordinated way if everyone involved understands the 'project language', which is a combination of designs and specifications. To understand the language fully, it is necessary to appreciate the principles of structural analysis and design and a course on this topic comes in handy here. Participants of this workshop will gain a basic knowledge of structural engineering that includes principles of analysis of structures and their application, behavior of materials under loading, selection of construction materials and design fundamentals for RCC and steel structures.

The emphasis has been kept on the determination of nature and quantum of stress Developed under loads and the way structures offer resistance to it. Being the most widely used construction materials, RCC and steel has been covered in detail though masonry and timber have also been described briefly.

Course Objective 

  • Fully understand the role of the structural engineer
  • Comprehend the behavior of structural members under loading
  • Understand the concept of stress functions like tension, Compression, shear and bending
  • Use the basic concepts for analysis of statically determinate and indeterminate structures
  • Analyze deformation of members under loading
  • Understand the significance of material properties in design
  • Undertake basic design of Reinforced Cement Concrete Structures
  • Undertake basic design of Steel Structures
  • Undertake basic design of Masonry & Timber Structural Members
  • Building Inspectors
  • Project Managers
  • Construction Supervisors
  • Municipal Officials
  • Architects
  • Quantity Surveyors
  • Insurance Surveyors
  • Concrete Technologists
  • Reinforcement Detailers
  • Structural Fabricators
  • Building Maintenance Personnel
  • Structural Rehabilitation Staff

Course Outline 

Introduction to structural engineering principles of strength of material

  • Theory of elasticity
  • Stress-strain characteristics
  • Sectional properties
  • Deflection & deformation

Structural analysis

  • Principle of mechanics
  • Determinate & indeterminate structures
  • Determination of stress functions (direct, bending & shear stresses)
  • Analysis of statically determinate structures
  • Analysis of statically indeterminate structures
  • Analysis of deformation under loading

Design philosophies

  • Material behavior under stress
  • Working stress design
  • Limit state design
  • Loads

Design procedure of reinforced cement concrete (rcc) structures

  • Material & components
  • Stress behavior
  • Ultimate & permissible stresses
  • Design of beams & slabs
  • Design of walls & columns
  • Design of frames
  • Prestressed concrete design

Design procedure of steel structures

  • Materials & properties
  • Stress behavior
  • Methods & design of fastenings
  • Design of beams
  • Design of columns & struts
  • Design of tension members
  • Design of trusses
  • Design of built up sections
  • Limit state design

Design of masonry & wooden structures

  • Properties of masonry
  • Design of walls
  • Design of columns
  • Construction of arches
  • Material & properties of wood
  • Preservation methods
  • Permissible stresses
  • Design of columns & beams

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