The Burj Khalifa is part of an extraordinary 500 acre development called Downtown Dubai. The tower’s design is derived from patterning systems embodied in Islamic architecture, and also takes inspiration from the harmonious structure of the Hymenocallis plant, which is native to the region.
This iconic project breaks many records while overcoming the greatest of challenges and technical difficulties, not least of which are the wind forces dominating the structural design of the tower, the logistics of moving men and materials at extreme heights, and construction of the building envelope.
Addressing the environmental and technical challenges
As with any construction in the Middle East, Dow Corning’s technical experts were confronted with testing and specifying products that are able to withstand the rigors of high temperature, ultra-violet light, seismic activity and inclement weather conditions including sandstorms and high winds. In addition, large areas of the curtain wall, which in total is equivalent in size to 17 soccer fields, are positioned at extreme height, which in turn, brings a new set of technical challenges.
Key Participants
Adrian Smith, Skidmore, Owings & Merrill — Architect
Far East Aluminum, Hong Kong Arabian Aluminum, UAE — Structural Glazing Fabricators
White Aluminum, UAE — Insulating Glass Fabricator
Samsung Engineering & Construction — Main Contractor
Emaar Properties — Developer
Solving the pressure build-up problem
A total of 103,000 square meters of glass was used in the cladding panels, which are incorporated into a total facade area of 132,190 square meters. These advanced cladding panels maximize resistance against heat transmission from the sun and save energy through the use of sophisticated engineering techniques, which include high performance reflective glazing.
The unitized panels were interlocking on site and up to two stories tall. Being positioned at such high elevations, the risk of pressure buildup within the insulating glass units was alleviated through the design specification and Dow Corning 3362 Silicone Insulating Glass Sealant, was used as the secondary perimeter seal. Silicone application was carried out by White Aluminum Enterprise, who is a member of Dow Corning® Quality Bond—an initiative which provides technical training and support, designed to achieve excellence in quality control, quality assurance and standards of workmanship.
Products
Dow Corning 993 Silicone Structural Glazing Sealant
Dow Corning 3362 Silicone Insulating Glass Sealant
Dow Corning 798 Clean and Coldroom Silicone Sealant
In addition, Dow Corning 993 Silicone Structural Glazing Sealant was specified to bring additional secondary support of the insulating glass units, which were mechanically attached to the frame as the primary support. And, for sealing the exclusive bathrooms within the prestigious apartments, Dow Corning 798 Cold and Cleanroom Silicone Sealant was specified.
Click here to view a short animated presentation about how Dow Corning products and support helped Burj Khalifa become a reality.
Or, to learn more about the Dow Corning products featured in this case study, as well as the many other proven materials for the construction industry, please visit us here. To speak to your nearest Dow Corning representative, visit dowcorning.com/ContactUs. +
Related Stories
Concrete | Jul 26, 2022
Consortium to set standards and create markets for low-carbon concrete
A consortium of construction firms, property developers, and building engineers have pledged to drive down the carbon emissions of concrete.
Green | Jul 26, 2022
Climate tech startup BlocPower looks to electrify, decarbonize the nation's buildings
The New York-based climate technology company electrifies and decarbonizes buildings—more than 1,200 of them so far.
Education Facilities | Jul 26, 2022
Malibu High School gets a new building that balances environment with education
In Malibu, Calif., a city known for beaches, surf, and sun, HMC Architects wanted to give Malibu High School a new building that harmonizes environment and education.
| Jul 26, 2022
Better design with a “brain break”
During the design process, there aren’t necessarily opportunities to implement “brain breaks,” brief moments to take a purposeful pause from the task at hand and refocus before returning to work.
Building Team | Jul 25, 2022
First Ismaili Center in the U.S. combines Islamic design with Texas influences
Construction has begun on the first Ismaili Center in the U.S. in Houston.
Codes and Standards | Jul 22, 2022
Office developers aim for zero carbon without offsets
As companies reassess their office needs in the wake of the pandemic, a new arms race to deliver net zero carbon space without the need for offsets is taking place in London, according to a recent Bloomberg report.
Codes and Standards | Jul 22, 2022
Hurricane-resistant construction may be greatly undervalued
New research led by an MIT graduate student at the school’s Concrete Sustainability Hub suggests that the value of buildings constructed to resist wind damage in hurricanes may be significantly underestimated.
School Construction | Jul 22, 2022
School integrating conventional medicine with holistic principles blends building and landscape
Design of the new Alice L. Walton School of Medicine in Bentonville, Ark., aims to blend the building and landscape, creating connections with the surrounding woodlands and the Ozark Mountains.
Market Data | Jul 21, 2022
Architecture Billings Index continues to stabilize but remains healthy
Architecture firms reported increasing demand for design services in June, according to a new report today from The American Institute of Architects (AIA).
Market Data | Jul 21, 2022
Despite deteriorating economic conditions, nonresidential construction spending projected to increase through 2023
Construction spending on buildings is projected to increase just over nine percent this year and another six percent in 2023, according to a new report from the American Institute of Architects (AIA).
