Sienna Platform Bed
Usually Ships in Under 1-3 Weeks
Sustainability with BAMBOO. There is no clear cutting of forest when buying MiY’s bamboo furniture. Think of it like a large garden, where the same root structure is used over and over again. You are welcome planet!
Expertly crafted in earth friendly solid bamboo, the smartly scaled Sienna queen sized platform bed features contemporary styling, clean lines and beautifully beveled edges. The matching chests are beautifully finished on all 4 sides, feature solid bamboo drawer boxes, matte black stainless steel pulls, hidden under mount drawer glides and soft closing drawers.
Designed to be used with a mattress only, the Sienna platform bed features a solid bamboo European slat system, eliminates the need for a box spring, and provides constant ventilation for your mattress, with generous space for storage under the bed frame. Greenington’s tough metal to metal connecting hardware withstands multiple bed assemblies with ease.
Shown in caramelized finish. No stain is used, the appealing caramelized color is achieved with heat and pressure. Variation in grain and color enrich the natural beauty of bamboo furniture and make each piece unique. Slight differences in bamboo shade colors are signs that the furniture has been crafted from solid bamboo and is considered a benchmark of quality.
Available in both Queen and Eastern King sizes, it is currently available in our classic caramelized and rich Mocha finish. Sustainable and rapidly renewable, Greenington fine bamboo combines beautiful design, rich colors and a winning sustainability story.
66″W 86″L H-14¾”FB/40″HB
82″W 86″L H-14¾”FB/40″HB
Crafted in 100% solid Moso bamboo
No plywood, particle board, or MDF
20% harder than Red Oak
European slat system, no box spring needed
15 fully finished solid Moso bamboo slats
Easy to use connected slats, lock into place
Earth friendly, sustainable and rapidly renewable, Moso bamboo is a grass that reaches maturity in 5 years or less and releases nearly 35 percent more oxygen back into the atmosphere than equivalent stands of trees