"The engagement ring that was made from your site is BEAUTIFUL (X and O design
R701 I think). I get stopped all the time by people wanting to take a closer
look. It is the most amazing ring I have ever seen. You do lovely work. It
was also appraised much higher than we paid. Thank you so much." - Lauren R.
Hand crafted in luxurious platinum, this classic and elegant curved Art Deco wedding ring is securely bead set with 15 shimmering round brilliant cut diamonds of F/G color and VS clarity for a total carat weight of 0.23 for the ring. Light scattering millgrain edging frames the diamonds and adorns the edges of the band, with wheat engraving - a symbol of prosperity and abundance - on the three outward facing sides of the ring.
This Art Deco wedding ring is designed to fit around our curved engagement ring styles and measures 3.1 millimeters wide at the top of the ring, tapering down to 2.4 millimeters at the bottom of the band, and rises 2.5 millimeters off the finger. The perfect symbol for the start of many bright and bountiful days together, this beautiful wedding band is a size 6 3/4 and can be expertly sized by our jewelers.
* This ring takes 10-14 business days for our jewelers to craft for you in the USA (including optional ring sizing) and ships when complete - please contact us for details.
This ring is crafted by our jewelers to coordinate with our curved engagement ring styles only. Orders for this ring without a previous or current order for a companion engagement ring from us will not be honored.
Insured shipping is FREE, and all rings are sent to you in beautiful Antique Jewelry Mall gift packaging.
Width at top of ring:
Width at bottom of ring:
Height off finger:
Gemstone Information Ethically Sourced & Conflict Free
0.23 carat total
Our Customers Say..."The rings arrived on time for the wedding and the bride and groom are thrilled with them. With all the work and the preparation for the wedding, when it was all over the rings are what will last. Thanks for being part of a wonderful union!" - Sylvia G.