Here's what these non-traditional materials can do for 10 design applications (and whatever else you can dream up):
Are you going for a unique aesthetic? Like other metal architecture components, wire mesh and perforated metal have their own feel. The aesthetic is versatile based on specified hole size, hole pattern, and material.
These architectural metal products offer a few other natural perks:
The world once relegated these two products to mundane applications in parking lots and construction sites.
The list of architectural design ideas below emphasizes the versatility of perforated sheet and metal mesh. It just may be able to meet your unique needs and vision:
Playing mix-and-match with these elements changes the feel drastically. The aesthetic can be light, playful, and delicate (ex: decorative brass wire mesh) or a heavy and impenetrable barrier (ex.: architectural stainless steel wire mesh). They can be used as a purely functional element, purely decorative, or somewhere in between.
Standard manufacturing of many perforated metal architecture pieces leaves them with an edge of solid metal. It'll be the same height as the rest of the panel, so if you want your edging to stand out, you’ll need a secondary product.
Decorative metal mouldings are an attractive way to highlight your perforated metal paneling. They can provide protective edge covering or visually interesting transitions at:
Decorative Wire mesh, however, has rough, sharp edges that tend to fray and stick to things. Mesh is difficult to produce and frame at the same time.
There are a few solutions -- some attempt to manually DIY a frame out of single-sized u-channels. It’s effective but messy and visually unappealing.
Another option is MeshTrim. This product was developed specifically to make wire mesh framing more convenient, attractive, and affordable. To learn more, check out the free e-book below: Otherwise, happy hunting -- let us know what new ideas you can come up with for both perforated metal and architectural mesh designs!
(Editor's note: This article was originally published in April 2017 and was recently updated.)