Master Class

Know Your Deflection Limits

Geek Level 1

Welcome to the latest edition of the Window Geeks: Master Class! Now that we've covered wind loads, we’ll be moving on to another consideration for your project: window deflection limits. What are they? How are they calculated? What does the Building Code have to say on the matter? Let’s find out!

What is deflection in windows?

When we speak of deflection in relation to windows, we’re referring to the amount of distance a glass lite (or section) bends away from where it should sit – uniform with the glass lite’s edges.

The issue with glass deflection is not actually one of safety, but rather the perception of the glass. Building users witnessing large displacements are likely to perceive it to be unsafe, or at the very least unsightly.

When does glass deflection occur?

Glass deflection variations may result from a number of (or combination of) different factors, such as:

The very general root causes of deflection are:

How are deflection limits enforced?

While the BC Building Code has no defined deflection limits, the International Building Code does touch on the topic:

“The 2018 International Building Codes clarify the deflection criteria to be used in the design of glass wall systems by adding reference to AAMA TIR-11 Maximum Allowable Deflection of Framing Systems for Building Cladding Components at Design Wind Loads.”

“In the 2015 IBC, the body of Table 1604.3 limits the deflection of exterior walls supporting plaster or stucco to L/360, with “L” being the span of the wall.”

L is the length of the unsupported span. The above affects wood at the head of window attachments, which will deflect. This is why we use head clips – to account for that movement.

“Although it does not specifically name glazed components or assemblies, or framing supporting glazing, it does establish a deflection limit of L/240 for exterior walls supporting “brittle finishes other than plaster or stucco.”

Historically, this is the deflection limit that was applied to glass wall systems such as curtain wall or floor-to-ceiling storefronts. Empirical evidence, however, has demonstrated that glass wall systems that deflect as much as L/175 maintain their function adequately, when established methods such as pressure equalization have been applied within the design of the wall system itself and the wall span is not excessively high.

The American Architectural Manufacturers Association standard AAMA TIR-11 “establishes a deflection limit of L/175 for spans less than 13 feet 6 inches and L/240 + ¼ inch for spans greater than that. The additional ¼ inch provides for a smooth transition between the L/175 criteria below 13 feet 6 inches, and the L/240 + ¼ inch criteria above it. Specifically:

L = 13 feet 6 inches = 162 inches

L/175 = 162/175 = 0.925 inch

L/240 + ¼ = (162/240) + ¼ = 0.925 inch”

Deflection is applied in two performance classes: CW and AW.

Here’s a quick run-down of performance ratings:

“The American Architectural Manufacturers Association (AAMA) standardizes windows according to performance grades, distinguished by pounds per square foot (psf) of pressure (or wind loads) and the corresponding wind velocity:

R class, 15 psf, designed for 77 mph wind speed.

LC class, 25 psf, designed for 100 mph wind speed.

CW class, 30 psf, designed for 109 mph window speed.

AW class, 40 psf, designed for 126 mph window speed.

Choosing a window class depends on the application and performance required. Generally, the higher performance grades, the more capable the window is of withstanding greater operating force, deflection and structural loading – meaning that the CW and AW class are usually selected for commercial projects.”

Below is a table from the Fenestration & Glazing Industry Alliance showing their deflection limitations:

“AW and CW … have a maximum deflection limit of L/175 (where L is the length of the unsupported span) under the uniform load deflection tests. L/175 is also a requirement of complying with ASTM E1300 “Standard Practice for Determining Load Resistance of Glass in Buildings."

The industry standard by general consensus seems to be 19mm for maximum deflection.

Join us on the next installment of the Window Geeks: Master Class, where we’ll be looking at window security.

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