Thermal stress is one of many factors that can cause glass to break, even when it is not impacted by a projectile.
Such failures usually are not a testament to the quality of the glass, but rather the result of temperature imbalance within the glass, which can occur when the center of a window or insulating glass unit (IGU) heats and expands while the edges remain cool.
The resulting thermally induced tensile stress on the glass edges can exceed the strength of the glass itself, causing it to break at approximately a 90-degree angle.
Working closely with the IGU fabricator and glass supplier, and conducting a thermal stress analysis at the beginning of the design phase can help architects specify the proper glass for their projects. Here are five thermal stress related rules-of-thumb to consider when specifying glass:
1. Clear or color? Glass can be clear, ultra-clear or tinted in colors such as gray, blue, green and bronze. Tinted glasses absorb solar radiation more than clear glass, which can cause them to collect heat and make them more susceptible to break from thermal stress.
2. Inner or outer surface? Reflective and low-emissivity (low-e) coatings, which improve the solar performance of glass primarily by reflecting solar radiation, can be placed on any one of four surfaces in a dual-pane IGU. While they are usually placed on the inner glass surfaces of the IGU, the coating orientation and the associated risk of thermal stress has to be taken into account.
3. Sunny or shady? Outdoor shading, including overhangs, adjacent buildings, and trees, is one of the most dynamic elements to consider when analyzing thermal stress. Minimizing locations where non-uniform shading of IGUs can occur will help avoid extreme temperature gradients. Interior shading devices, such as blinds or drapes, can increase glass temperature by reflecting solar radiation back through the glass or by reducing the convection and conduction of heat away from the glass. To minimize thermally induced edge stress, the air space around the window glass should be ventilated. There should be a gap of several inches between the glass and shades, blinds or drapes.
4. Where to place a vent? If heating vents, registers and grilles point directly at glass units, warm air will cause the glass to heat up and, under certain conditions, break. Make sure vents are carefully placed to reduce thermal stress risk and avoid placing them between the glass and interior shading devices.
5. How to frame it? Glass framing systems that have low heat capacity also can minimize the chance of a thermal stress break. Structural gaskets and narrow metal framing are favorable because they have less effect on the glass temperature around the edges. Conversely, massive framing – whether metal, masonry or even wood – can have more of an effect, resulting in thermal imbalance and risk of glass breakage.
To learn more about avoiding thermal breakage of insulated glass units and other glass-related topics, visit the PPG Glass Education Center at www.educationcenter.ppg.com.
Related Stories
| Nov 17, 2014
Developments in 3D printing can assist architecture in the smallest details
Researchers at the Department of Energy’s Oak Ridge National Laboratory (ORNL) have developed a way for 3D printed metals to be produced with an unprecedented degree of precision.
| Nov 17, 2014
A new BSL-3 public-safety lab debuts in Vermont
The laboratory will be used to perform a wide range of analyses to detect biological, toxicological, chemical, and radiological threats to the health of the population, from testing for rabies, West Nile, pertussis and salmonella to water and food contaminants.
| Nov 17, 2014
'Folded facade' proposal wins cultural arts center competition in South Korea
The winning scheme by Seoul-based Designcamp Moonpark features a dramatic folded facade that takes visual cues from the landscape.
| Nov 17, 2014
Workplace pilot programs: A new tool for creating workspaces employees love
In a recent article for Fast Company, CannonDesign's Meg Osman details how insurance giant Zurich used a workplace pilot program to empower its employees in the creation of its new North American headquarters.
| Nov 17, 2014
Mastering natural ventilation: 5 crucial lessons from design experts
By harnessing natural ventilation, Building Teams can achieve a tremendous reduction in energy use and increase in occupant comfort. Engineers from SOM offer lessons from the firm’s recent work.
| Nov 14, 2014
Bjarke Ingels unveils master plan for Smithsonian's south mall campus
The centerpiece of the proposed plan is the revitalization of the iconic Smithsonian castle.
| Nov 14, 2014
Haskell acquires FreemanWhite, strengthens healthcare design-build business
The combination expands Haskell’s geographic presence by adding FreemanWhite’s offices in Chicago, Charlotte, Nashville, and San Diego. FreemanWhite will retain its name and brand.
| Nov 14, 2014
What college students want in their living spaces
In a recent workshop with 62 college students, architects from Little explored the changing habits and preferences of today's students, and how those changes affect their living spaces.
| Nov 14, 2014
JetBlue opens Gensler-designed International Concourse at JFK
The 175,000-sf extension includes the conversion of three existing gates to international swing gates, and the addition of three new international swing gates.
Sponsored | | Nov 12, 2014
Eye-popping façade highlights renovation, addition at Chaffin Junior High School
The new distinctive main entrance accentuates the public face of the school with an aluminum tube “baguette” system.
