Byron Round Vase
Sleek and sophisticated, the Byron Round Vase is a statement piece made for every interior. With its stirring ombré matte texture, the vase is perfect for creating a charming sculptural display or unique floral arrangement.
- Handcrafted by artisans for a unique touch
- Perfect for contemporary interior styles
- Made from durable glass for lasting elegance
- Features a striking ombré matte finish
- Ideal for floral arrangements or as a standalone piece
Made from glass. Origin: China. Dimensions: 21x21x23cm. Spot clean with damp cloth, soap and water. Only use a soft, non-abrasive cloth, as sponges may leach into the surface.
Original: $71.08
-65%$71.08
$24.88More Images
Byron Round Vase
Sleek and sophisticated, the Byron Round Vase is a statement piece made for every interior. With its stirring ombré matte texture, the vase is perfect for creating a charming sculptural display or unique floral arrangement.
- Handcrafted by artisans for a unique touch
- Perfect for contemporary interior styles
- Made from durable glass for lasting elegance
- Features a striking ombré matte finish
- Ideal for floral arrangements or as a standalone piece
Made from glass. Origin: China. Dimensions: 21x21x23cm. Spot clean with damp cloth, soap and water. Only use a soft, non-abrasive cloth, as sponges may leach into the surface.
Product Information
Product Information
Shipping & Returns
Shipping & Returns
Description
Sleek and sophisticated, the Byron Round Vase is a statement piece made for every interior. With its stirring ombré matte texture, the vase is perfect for creating a charming sculptural display or unique floral arrangement.
- Handcrafted by artisans for a unique touch
- Perfect for contemporary interior styles
- Made from durable glass for lasting elegance
- Features a striking ombré matte finish
- Ideal for floral arrangements or as a standalone piece
Made from glass. Origin: China. Dimensions: 21x21x23cm. Spot clean with damp cloth, soap and water. Only use a soft, non-abrasive cloth, as sponges may leach into the surface.
