Cool Iron, Dry Clean Only
|Half drop repeat||
|Martindale Rub Test||
|Pattern repeat (cm)||
|Pattern repeat (inch)||
Bag, Blinds, Boxed Cushion, Curtains, Cushions, Loose Covers, Upholstery
Sustainable Great Oak Paprika 1.6m Remnant
Sustainable Great Oak Paprika Fabric 1.6m Remnant is a beautiful soft terracotta block print style oak tree print. The basecloth is sustainable cotton sourced through the Better Cotton Initiative; a quality cotton from sources which include a percentage of organic cotton and use fairtrade practices, including no child labour.
Sustainable Great Oak Paprika 1.6m RemnantThis Sustainable Great Oak Paprika 1.6m Remnant is a earthy terracotta backcloth with a block print effect design. It is part of our range of sustainable cotton furnishing fabrics in subtle, earth toned colours. This lovely fabric would enhance any room in your house. Use this remnent for:
Colours can appear differently on screen, so although every care has been taken to represent them accurately, some variations may occur from real life. To check colours are as you expect we recommend you order a sample, to see and feel the fabric in the flesh. Free samples are available for all fabrics! Colours can also vary between dye lots, so please ensure you order enough for your project.
So we can package your fabrics beautifully for posting, they will be taken off the roll and folded. We try our best to always send fabric in one continuous length although this is not always possible, we will contact you if this is the case. Some fabrics are also on sale in our shop in Bridport, Dorset, so on rare occasions stock may not be available where it appears to be online. We do our best to avoid this and many fabrics can be reordered, again if this occurs we will contact you to discuss the options.
To keep your lovely new fabrics in the best condition we recommend checking out the Product Info for details on how to care for them. Washable fabrics should always be hand washed, before cutting and making your projects, in order to allow for shrinkage.