Armstrong Ceiling Grid Sizes

Essential Aspects of Armstrong Ceiling Grid Sizes

Armstrong ceiling grid sizes are a crucial aspect to consider when designing and installing a suspended ceiling system. Choosing the right grid size ensures optimal performance, aesthetics, and compliance with building codes. This article explores the essential aspects of Armstrong ceiling grid sizes, providing guidance on how to select the most suitable grid for your specific application.

Grid Type

Armstrong ceiling grids are available in two primary types: standard and narrow. Standard grids have a 15/16-inch (24 mm) face width, while narrow grids have a 9/16-inch (14 mm) face width. Standard grids are typically used in commercial applications, while narrow grids are ideal for residential and smaller spaces.

Grid Layout

Grid layout refers to the spacing between the tee bars. The most common grid layouts are 2x2, 2x4, and 1x2. 2x2 grids have 2-foot-by-2-foot (610 mm x 610 mm) openings, 2x4 grids have 2-foot-by-4-foot (610 mm x 1220 mm) openings, and 1x2 grids have 1-foot-by-2-foot (305 mm x 610 mm) openings. The grid layout should be chosen based on the desired visual effect and the size of the room.

Grid Material

Armstrong ceiling grids are typically made of steel or aluminum. Steel grids are stronger and more durable than aluminum grids, but they are also heavier. Aluminum grids are lighter and easier to handle, making them ideal for large-scale installations. Both steel and aluminum grids are available in a variety of finishes, including white, black, and chrome.

Grid Weight

The weight of the grid should be considered when selecting a grid system. Heavier grids require more support, which can impact the overall cost of the installation. The weight of the grid is typically measured in pounds per square foot (psf). Lighter grids are preferred for suspended ceilings that will support additional weight, such as lighting fixtures or acoustic panels.

Grid Suspension

Armstrong ceiling grids are suspended from the ceiling structure using hangers or wire. Hangers are preferred for heavier grids, while wire is more suitable for lighter grids. The type of suspension system should be chosen based on the weight of the grid and the desired ceiling height.

Conclusion

Understanding the essential aspects of Armstrong ceiling grid sizes is crucial for selecting the most suitable grid for your specific application. By considering factors such as grid type, grid layout, grid material, grid weight, and grid suspension, you can create a suspended ceiling system that meets your aesthetic, functional, and budget requirements.