Swarovski Bicone Beads are made in Austria and are the highest quality lead free glass-cut crystals available worldwide. Swarovski Bicones are easy to thread and are perfect for creating beautiful durable designs and jewellery pieces. Swarovski Beads are available in an extensive range of sizes and colours.
IMPORTANT CHANGE TO THE SUPPLY OF SWAROVSKI CRYSTALS
As a valued customer, we would like to inform you about important changes to Swarovski’s business and how this might affect your purchase of Swarovski Crystals from us in the future. Swarovski will continue to offer their sustainable and precision-cut crystals to B2B customers, but will be working with a limited number of wholesalers, in much closer collaboration in the future.We are delighted to confirm that Bluestreak Crystals is one of very few wholesalers worldwide that will continue to sell Swarovski crystals.
WHAT THIS MEANS FOR OUR CUSTOMERS:
From October 2021 onwards, we can only sell Swarovski crystals to customers that have been approved by Swarovski. Approvalis restricted to those brands / businesses who create or manufacture a finished product using Swarovski crystals.
Approved customers can click here for more details of our closed B2B environment, where Swarovski Crystals can continue be be purchased from 1 October 2021 and beyond.
Those customers who are not yet approved, can click here: APPLY FOR SWAROVSKI APPROVAL and complete the online form to apply for approval. Customers who have already submitted an application, do not need to apply again.
For those customers who don't meet the requirements or choose not to apply, we offer alternative high-quality brands of crystals by Serinity, Preciosa and Estella. Theycan be viewed by selecting the brand name from the main menu and purchased by all customers without any restrictions.
ALTERNATIVE TO SWAROVSKI CRYSTALS:
If you are looking for the closest alternative to Swarovski Bicone Beads with identical quality, brilliance and sparkle, we recommend Serinity Bicone Beads which are also made in Austria and can be found below: