Description
Discover the unique handmade bench SOFIA SLIM with an IRREGULAR rectangular seat 2.5cm thick made of natural solid ACACIA wood in a LIGHT NATURAL color, which rests on two black metal bases with a trapezoidal shape. The modern design meets nature and gives a timeless and warm feeling to your space.
DIMENSIONS:
160.5×46.5x45H cm.
Surface thickness: 2.5 cm.
Leg distance: 124-108×39.5 cm.
CONSTRUCTION MATERIALS:
The bases are made of reinforced metal to be able to withstand the weight of the 2.5 cm solid wood seat.
It is made of natural solid acacia wood and each one is unique due to the unevenness of the tree trunks. When we refer to solid wood, we mean wood made entirely from the trunk of a tree. Solid wood is the most expensive choice in terms of wood but stands out for its timeless aesthetics. Acacia wood is one of the best types of wood on the market. Its mechanical strength and mechanical properties approach those of other known woods, such as beech, oak, afzelia, teak and others.
Acacia wood is of high biological strength, which means that it has excellent resistance to the action of microorganisms that could destroy the material and structures.
**The existing cracks or those that may be created over time are due to the contraction-expansion of the living organism called solid wood, and are not a manufacturing defect, giving originality and unique design to your space. During the production process, existing cracks are smoothed and stabilized with material made from the same wood. Therefore, THERE MAY BE COLOR VARIATIONS AND DIFFERENCES IN PRODUCT DIMENSIONS. These are not product defects.
MAINTENANCE:
Solid wood of any kind is considered to be of high quality. In case of wear and tear it can be repaired and last for many years. In order to clean the wood from the dust and heavy usage, we need a material that is active but also mild enough, so as not to damage the wood, always following the “waters” (waves) of the wood.
*The product is delivered unassembled
** The color rendering of the product may differ slightly from its photographic representation on your screen.
