Prism Pearlescent Powders are a beautiful mica based colouring medium. Each powder contains several different colour pigments, giving the powders an incredible level of shimmer and shine.Read the full description
Welcome to a world of colour with the brand new Prism Pearlescent Powders from Hunkydory! Well-known for the amazing quality of their products, Hunkydory's Pearlescent Powders are no different.
Prism Pearlescent Powders are a beautiful mica based colouring medium. An extensive level of research and hardwork has gone into them to ensure only the best standard for crafters.
Each powder contains several different colour pigments, giving the powders an incredible level of shimmer and shine.
These versatile powders have many fantastic uses including watercolouring, spritzing with water, adding to water to create shimmering mists, spritzing to create an amazing explosion of colours on your projects and more.
Set 3 contains 3 pots in Brilliant Burgundy, Radiant Rose and Sepia Splendour, perfect for a wide range of cardmaking projects.
Mix with paint, embossing powder, texture past and other colour mediums to add that extra layer of shimmer.
- 3 x 2.5g Prism Pearlescent Powders
- Sepia Splendour
- Brilliant Burgundy
- Radiant Rose
Delivery and Returns
Please allow up to 10 working days to receive your order.
Most deliveries require someone to accept and sign for the delivery to ensure the goods are received correctly. To help you we can arrange for delivery to be made elsewhere.Click here for more information.
We hope you like your purchase, however, if you are not entirely satisfied with any item, it may be sent back to us for a refund, provided it is returned within 14 days (unless otherwise specified) from the date of despatch. Please click here for more information.
ASDA toyou Service: Where you see the ASDA logo, we offer a Click & Collect service from over 600 ASDA stores. Please Note: This service is only available when ALL the items in your basket are eligible for ASDA toyou. Click here for more information.