| Thermal Expansion |
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While the concept of thermal expansion is well understood among architects and engineers, occasionally there are problems relating to insufficient thermal expansion allowances. If expansion joints are not properly located or fastening points for metal panels do not allow linear expansion, permanent damage can occur to the panel work that otherwise has nowhere to go as it expands. This damage comes in the form of buckled and undulated surfaces that are the result of panel sections colliding with each other. An example of this sort of damage appears in Illustration 1, which was provided by Technical Marketing Resources and independent consulting firm specializing in stainless steel applications engineering and marketing.
Illustration 1
Different materials have unique coefficients of thermal expansion. Building systems need to be designed to facilitate expansion of the materials from which they are made. Table 1 provides a ranking of thermal expansion coefficients of different metals.
Thermal Expansion 10-6 in/in./°F Range between room temperature & 212° - 750° except titanium at 1000° - 1800°
Table 1
Expansion joints should have sufficient free play to accommodate the potential expansion of the specific metal being installed. Further, fastening devices must allow for thermal movement. Panel clips should allow panels to slide freely as they expand. Panels should have slotted holes if through-panel fasteners are to be used. |
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