Solitaire Orisa Ring
SKU: LG63018OV-25E/4W
$1,344
$2,949
Sizing Guide
Solitaire 0.25ct Oval Lab Diamond Ring
Bezel Collection
An oval lab-grown diamond sits in a flush bezel-setting on this low profile golden ring. The band features a rounded comfort fit and high polish. These features combined results in a ring that can easily be worn all day long and will not be obstructed by foreign objects during your daily activities. High center settings can be cumbersome for those with active lifestyles whereas low set centers, especially those of flush bezel settings, leaves for effortless style and grace.
This minimal high-fashion design comes complete in solid 14-karat gold, and your choice of bright white, soothing yellow, or peachy rose.
Solitaire 0.25ct Oval Lab Diamond Ring
Bezel Collection
An oval lab-grown diamond sits in a flush bezel-setting on this low profile golden ring. The band features a rounded comfort fit and high polish. These features combined results in a ring that can easily be worn all day long and will not be obstructed by foreign objects during your daily activities. High center settings can be cumbersome for those with active lifestyles whereas low set centers, especially those of flush bezel settings, leaves for effortless style and grace.
This minimal high-fashion design comes complete in solid 14-karat gold, and your choice of bright white, soothing yellow, or peachy rose.
Genuine Photos by Kobelli
All photos of this ring were taken in-house with real stock, designed and manufactured by Kobelli, set with the described diamond and carat weight. The ring in the photos is a size 6.5.
All photos of this ring were taken in-house with real stock, designed and manufactured by Kobelli, set with the described diamond and carat weight. The ring in the photos is a size 6.5.
Gem Type
- Lab-grown Diamond
Number Of Stones
1
Setting
- Bezel
Stone Clarity
- VS
Stone Color
- DEF
Center Weight
Approx. 0.25 Carat
Stone Shape
- Oval
Total Diamond Weight
Approx. 0.25 Carat
Dimensions
Setting (in mm): L 5, W 6.45, H 2.2