Embroidered Boucle

SKU: 00067651
Please note that color may vary depending on your monitor settings
US$ 1,011 /m per one running meter

Characteristics

Composition:  54% Polyamide 34% Polyester 12% Cotton
Weight: 329 g/m²
Width: 160 cm
Manufacturer: Jakob Schlaepfer
Country: Switzerland
Categories: Dresses, Jackets, Skirts

This high fashion boucle fabric is decorated all over with vibrant floral embroidery. The color palette is vivid against the white background: flaming red, bright lilac, intense green mixed with metallic threads for extra glimmer. The fabric is of medium weight, with a very soft hand, quite dense to be used even for a special occasion coat. Opaque, it is equally suitable for dresses, skirts, jackets and vests.

Fabrics by Jakob Schlaepfer are a constant source of inspiration for thousands of women all over the world. Their ton-notch quality and highly detailed designs satisfy even the most demanding taste. Are you ready to surrender to the sensual handle of this boucle? Invite the blooming spring into your wardrobe!

Embroidery: 120 cm

Payment and Delivery Terms

We offer worldwide shipping on all items in Tissura online shop. Delivery to USA, UK, UAE, Australia and rest of the world.
We accept bank transfers and payments by credit and debit cards. Learn more about our payment and delivery terms.

Fabric by the Yard: Measurement Conversion

All fabrics on our website are priced by the running meter. The term "running meter" or "linear meter" is used in the fabric industry. To convert meters to yards, use the conversion factor 0.9144. In other words,
1 Yard = 0.9144 Meters
1 Metre = 1.0936 Yards

Looks Well With
Cotton Twill #1
Cotton Twill - Switzerland ( Cotton 100% )
SKU: 00066375
68 US$
This white cotton twill features a herringbone weave design. Its sleek simplicity speaks volumes.
Double Faced Wool Crepe #1
Double Faced Wool Crepe - Italy ( Wool 100% )
SKU: 00059603
132 US$
This lilac crepe fabric is made of pure merino wool. It has a soft, yet a slightly textured feel due to the grained effect on the surface.