Arc-Com Ensemble Collection
The Arc-Com Design Studio introduces a lovely, color coordinated trio of Healthy Hospital Initiative compliant healthcare products with the introduction of the Ensemble Collection.
Comprised of three patterns—two high performance polyurethanes—-patterns, Arabesque and Cadence, and one privacy curtain—pattern Harmony. The Ensemble Collection offers designers a beautifully coordinated grouping of organic pattern and texture.
Patterns Arabesque and Cadence are both high performance, polycarbonate, ink resistant, polyurethanes stocked with the WriteOut finish and tested to 7 weeks of Hydrolysis.
Pattern Arabesque offers a graceful, midscale, stylized botanical design that never becomes too literal. Pattern Cadence is a gorgeous textured coordinate that is reminiscent of a fine linen.
The exact coordinate ground color of each Arabesque colorway can be found in pattern Cadence, and we have chosen to add nine additional best-selling colors to this classic textured palette.
Pattern Harmony is a privacy curtain woven with Arc-Com’s proprietary X-Static antimicrobial yarn system. Pattern Harmony’s leafy motifs seem to slowly drift and float as they meander across its width, becoming less dense as they move toward the textile’s edge.
Pattern Harmony is Arc-Com’s first privacy curtain that is Healthy Hospital Initiative compliant. The X-Static antimicrobial yarn that is used in this construction is registered with the EPA under the Federal Insecticide, Fungicide and Rodenticide Act (FIFRA) and the flame-retardant chemicals that must be added to pass code meet Greenscreen Benchmark 4. X-Static fibers are permanently bonded with a layer of 99.9% pure metallic silver. X-Static is not nanotechnology or a complex chemical formula—it is just silver. This silver layer is the key to X-Static’s powerful antimicrobial properties, as it creates an ionic shield that permanently inhibits the growth of bacteria and fungi. X-Static privacy curtains have been tested to 200 commercial launderings with virtually no reduction in performance.