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Introduction to Structural Design

Introduction to Structural Design. Architecture has recorded the great ideas of the human race. Not only every religious symbol, but every human thought has its page in that vast book. - Victor Hugo . Structure of a Building.

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Introduction to Structural Design

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  1. Introduction to Structural Design Architecture has recorded the great ideas of the human race. Not only every religious symbol, but every human thought has its page in that vast book. - Victor Hugo

  2. Structure of a Building The primary function of a building structure is to support and transmit the building loads and forces to the ground. Photos courtesy Tilt-up Concrete Association

  3. Characteristics of a Structure • Strength • Stability • Economic Value

  4. Structural System • Made up of many smaller structural sub-systems that work together to provide a strong, stable, and cost-effective structure. • Examples of these smaller structural sub-systems include: • Roof • Walls • Floors • Framing • Foundations Structural engineers design these structural systems.

  5. Structural Sub-System • Made up of many structural elements that work together to provide a strong, stable, and cost-effective system. • Basic structural elements include: • Beam • Column • Truss • Arch • Vault • Dome Structural engineers design these structural systems.

  6. Forces and Loads • A force is any action that causes a change in the shape or motion of an object. • A load is a force that is supported by a structural element. • The terms force and load are often used interchangeably. SNOW WIND

  7. Structural Member Forces Tension – A force that stretches or pulls apart a member, resulting in the member elongating. Compression– A force that squeezes or presses a member together, resulting in the member shortening. Shear– A force that acts perpendicular to the axis of the member, causing the internal particles of the member to slide against each other.

  8. Beam • A structural element that carries a load that is applied transverse (perpendicular) to its length. • Usually a horizontal member that carries a vertical applied load. • The top fibers of a beam are in compression; the bottom fibers are in tension.

  9. Cantilever Beam • A special type of beam that is supported only at one end • The top fibers of the cantilever are in tension; the bottom fibers are in compression

  10. Column A vertical structural element that carries an axial force in compression COLUMN

  11. Truss • A structural element that is composed of smaller structural members typically configured in triangular arrangements • Some truss members carry a tension force; others carry a compression force

  12. Arch • A curved structural element that spans over an open space • In stone arches, the last stone to be placed at the top is called the keystone KEYSTONE

  13. Vault A continuous arch that forms a ceiling or roof

  14. Dome A structural element that is made up of arches that radiate around a center point to create a half sphere

  15. Hybrid Forms • An infinite number of combinations of these forms exist

  16. Design Process The same design process used by engineers and designers in other disciplines can be used to design structural systems. This design process was developed based on the University of Maryland - College Park - IRB Research Project

  17. Architectural Program • Defines the Problem • Establishes overall concept and design philosophy • Includes • Location of building on site • Architectural style • Interior space planning • Design elements • Construction materials • Building systems

  18. Architectural Program • An architectural program establishes preliminary structural systems. • The structural engineer must analyze the structural systems and provide a strong, stable, and cost-effective design. • Additional criteria needed: • Types and magnitudes of applied loads • Load path that each load will follow to the ground

  19. Structural Design Process Generate Concepts • Consider alternate structural configurations, materials, and spacing to improve the design or reduce costs

  20. Structural Design Process Generate Concepts • Select an Approach • Based on structural performance, compatibility with the architectural program, and cost • Based on the possibilities explored, select the optimal design

  21. Structural Design Process Develop a Solution • Create a preliminary structural design incorporating the selections for all structural elements • Create technical drawings to represent your solution

  22. Structural Design Process Construct and Test Prototype • Create a model to represent your structural design • Structural analysis software • 3D architectural software • Physical model • Test model

  23. Structural Design Process Evaluate the Solution • Assess the effectiveness of the design • Revise the design as necessary to correct problems with strength, stability, and compatibility with other systems

  24. Structural Design Process Present the Solution If the proposed design solves the problem • Document the project • Create working drawings and specifications for the structural design • Communicate the project

  25. Image Sources • Tilt-up Concrete Association (www.tilt-up.org)

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