A gorgeous late Art Deco floral bracelet in the Art Neuvo style from American design house Danecraft, features five open work panels adored with intricate folate designs and closing with a latch and bar, beautiful on the wrist and in perfect condition each panel is stamped 'Sterling', with the Danecraft maker stamp, and the clasp is stamped Danecraft, maker stamp and Sterling.
The Details:
Length: 19cm
Width:20.90mm
Metal: Sterling Silver, 925
Marks: Each panel stamped ‘Sterling’ with Danecraft Maker stamp, clasp stamped ‘Danecraft’ Maker’s mark, ‘Sterling’
Weight: 22.2 grams
Condition: In excellent Vintage condition, closure working as intended, the Silver has a lovely patina with no scratches
We’d hate you to miss out, so we offer lay-buy on all our pieces.
All you’ll need is a 25% deposit and then you’ll have up to 3 months to pay.
Simply select 'Put It On Laybuy' in checkout at payment options.
Click here for our Ts & Cs https://rockandvestige.com.au/pages/lay-buy-purchases
Because we know you want your goodies fast we send all our beauties Express Delivery throughout Australia for FREE!
Australia Wide Shipping FREE Express Delivery estimated arrival 1-2 business days.
Handling 1-2 business days.
All deliveries are insured, tracked, and are signature on delivery.
And for our International friends we offer New Zealand Express shipping - $20.00, and Express International Shipping - $36.00
- We ship internationally with Australia Post International Express Shipping.
- Delivery 3-6 business days between major metropolitan areas.
- Handling 1-3 business days.
- Tracking included.
- CN23 Customs Form completed by us on our end (further customs charges may apply at your end).
- All rates and charges are in $AUD.
- Please allow additional time for customs clearance.
All our pieces come in a custom R&V Velvet Flock Box and are securely packaged in a cardboard box for extra protection during shipping.
*Boxes in photos are for display only.
*Gemstones have not been removed from settings for accurate assessment. All grades and weights are approximate.