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Designing Tall Buildings

Mark Sarkisian
€248.00
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advanced materials
Aerodynamics
architectural integration
Author_Mark Sarkisian
Axial Moment
beam
Bending Moment
Biomimicry
Building Higher
Burj Khalifa
Category=AMC
column
Dynamic Properties
earthquake resistance
Elevation
elevations
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eq_bestseller
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eq_isMigrated=2
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eq_non-fiction
Extreme Seismic Events
Floor Framing Plan
Floor To Floor Height
Floor-To-Floor Heights
Force Flow
Good Listener Good Listener
Gravity Framing
Gravity Load
Gravity Load Distribution
Gravity Load Takedowns
Gravity Loads
high rise
high-rise structural design strategies
Infinity Column
Lateral Loads
Learning From Nature
Listener Good Listener Good Listener
Load Combinations
Material Quantities
MCE
Outgoing Outgoing
Outrigger Trusses
Performance Based Design Method
Perimeter Frame
Pin-Fuse Joint
Pinned Joint
Pinned Joints
Placement of Structural Materials
Positive Role Model Positive Role
prestressed frame
Reading the Structure
Reduce Shear Lag
Resists Gravity
Resists Gravity Load
Role Model Positive Role Model
Screen Frame
Screen Frames
Seismic
Seismic Isolation
Seismic Movement
Seismic Movements
Seismicity
Shear Moment
Shear Wall
Shear Wall Core
skyscraper
Steel Pin
structural analysis
structural Core
structural engineering
Structural Framing
Structural Framing Plans
Structural Materials
Structural Systems
sustainable construction
tall building
Tall Building Structures
Tubular Frame
Ultra-high Strength Concrete
Understanding Understanding Understanding
Vertical Force Distribution
Vertical Force Distribution for Seismic
Vertical Force Distribution for Wind
Vortex Shedding
wind engineering
Wood Dowel

Product details

  • ISBN 9781138886704
  • Weight: 725g
  • Dimensions: 156 x 234mm
  • Publication Date: 04 Jan 2016
  • Publisher: Taylor & Francis Ltd
  • Publication City/Country: GB
  • Product Form: Hardback
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Description

This second edition of Designing Tall Buildings, an accessible reference to guide you through the fundamental principles of designing high-rises, features two new chapters, additional sections, 400 images, project examples, and updated US and international codes. Each chapter focuses on a theme central to tall-building design, giving a comprehensive overview of the related architecture and structural engineering concepts. Author Mark Sarkisian, PE, SE, LEED® AP BD+C, provides clear definitions of technical terms and introduces important equations, gradually developing your knowledge. Projects drawn from SOM’s vast portfolio of built high-rises, many of which Sarkisian engineered, demonstrate these concepts.

This book advises you to consider the influence of a particular site's geology, wind conditions, and seismicity. Using this contextual knowledge and analysis, you can determine what types of structural solutions are best suited for a tower on that site. You can then conceptualize and devise efficient structural systems that are not only safe, but also constructible and economical. Sarkisian also addresses the influence of nature in design, urging you to integrate structure and architecture for buildings of superior performance, sustainability, and aesthetic excellence.
About Mark Sarkisian

Mark Sarkisian, PE, SE, LEED® AP BD+C, is the Partner-in-Charge of Seismic and Structural Engineering in the San Francisco office of SOM. He has developed innovative structural solutions for more than 100 international building projects, including some of the tallest buildings ever constructed. A world-renowned leader in the design of high performance seismic and environmentally responsible structural systems, Sarkisian has patented numerous inventions and has additional patents pending. He teaches, publishes, and lectures frequently around the world.

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