HAVER Architectural Mesh type MULTI-BARRETTE 8130 are made from solid rods and flexible cable clusters. The rods give stability to the mesh, the cables flexibility enabling very narrow radii. Facings with MULTI-BARRETTE 8130 create a light, transparent skin. Depending on the viewing angle this specification appears transparent or closed.
HAVER Architectural Mesh MULTI-BARRETTE 8130
USES & APPLICATIONS:
- Facades
- Stairways
- Ceilings
- Sun protection
- Parking Facades
- Solar Management
- Interior Design
SPECIFICATIONS:
Material: Stainless Steel
Weight: approx. 10.2 kg/m² (2.09 lbs/sqft)
Open area: approx. 46%
CHARACTERISTICS:
- dense mesh with low transparency
- due to its flexibility it can be curved to a small radius
- suitable for interior and exterior applications
As diversified as today's architecture, as diversified are our types of HAVER Architectural Mesh. The choice of warp and weft wires as well as the type of weave create different mesh geometries with specific optics and light effects. For special demands we of course develop individual wire mesh specifications.
Architectural wire mesh is often used with a stainless steel look, however there are numerous options available for coloring: Painting (complete or partial) in RAL or metallic colors, digital printing, coated wires, wire mesh made of non-ferrous metal (cooper, tin bronze, brass).
All HAVER Architectural Meshes are specially manufactured for each individual project. Each project has unique visual and technical requirements. HAVER & BOECKER consider your requirements and assist in the selection of the most suitable architectural wire mesh specification and appropriate mounting system.
HAVER & BOECKER will be delighted to advise you. From the first draft, to production and installation, through every step of your project. Our specialists are ready to support you.
For more information about HAVER Architectural Mesh MULTI-BARRETTE 8130 contact through our contact/quote button on top, visit HAVER & BOECKER's Page in Materials, or visit: www.weavingarchitecture.com.
