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
| Nov 10, 2011
Skanska Moss to expand and renovate Greenville-Spartanburg International Airport
The multi-phase terminal improvement program consists of an overall expansion to the airport’s footprint and major renovations to the existing airport terminal.
| Nov 10, 2011
Suffolk Construction awarded MBTA transit facility and streetscape project
The 21,000-sf project will feature construction of a cable-stayed pedestrian bridge over Ocean Avenue, an elevated plaza deck above Wonderland MBTA Station, a central plaza, and an at-grade pedestrian crossing over Revere Beach Boulevard
| Nov 10, 2011
Thornton Tomasetti’s Joseph and Choi to co-chair the Council on Tall Buildings and Urban Habitat’s Outrigger Design Working Group
Design guide will describe in detail the application of outriggers within the lateral load resisting systems of tall buildings, effects on building behavior and recommendations for design.
| Nov 9, 2011
Lincoln Center Pavilion wins national architecture and engineering award
The project team members include owner Lincoln Center for the Performing Arts, New York; design architect and interior designer of the restaurant, Diller Scofidio + Renfro, New York; executive architect, FXFOWLE, New York; and architect and interior designer of the film center, Rockwell Group, New York; structural engineer Arup (AISC Member), New York; and general contractor Turner Construction Company (AISC Member), New York.
| Nov 9, 2011
Sika Sarnafil Roof Recycling Program recognized by Society of Plastics Engineers
Program leads the industry in recovering and recycling roofing membrane into new roofing products.
| Nov 9, 2011
American Standard Brands joins the Hospitality Sustainable Purchasing Consortium
American Standard will collaborate with other organizations to build an industry-wide sustainability performance index.
| Nov 8, 2011
Transforming a landmark coastal resort
Originally built in 1973, the building had received several alterations over the years but the progressive deterioration caused by the harsh salt water environment had never been addressed.
| Nov 8, 2011
WEB EXCLUSIVE: Moisture-related failures in agglomerated floor tiles
Agglomerated tiles offer an appealing appearance similar to natural stone at a lower cost. To achieve successful installations, manufacturers should provide design data for moisture-related dimensional changes, specifiers should require in-situ moisture testing similar to those used for other flooring materials, and the industry should develop standards for fabrication and installation of agglomerated tiles.
