Mordenmiss Women's Cotton Linen Dresses Plus Size Summer Roll-up Sleeve Baggy Sundress with Pockets XL Black
R 2,217
or 4 x payments of R554.25 with
Availability: Currently in Stock
Delivery: 10-20 working days
Please be aware orders placed now will not arrive in time for Christmas, please check delivery times.
This item may be available in a different size, colour, scent, version or platform:
Mordenmiss Women's Cotton Linen Dresses Plus Size Summer Roll-up Sleeve Baggy Sundress with Pockets XL Black
Women's casual loose fit half sleeve bubble hem oversized tunic shirt dress for daily wear.
The shift dress is featuring with round neck,front buttons,rolled-up sleeves,solid color and knee length.
Lantern design,which can be a maternity dress and with two big pockets,can put many things.
Made of cotton linen material,lightweight and comfortable,good for your trip,get together,party,work,and go shopping.
Six colors to select:Beige,Army Green,Black,Navy,Brown and Gray;For the detailed size information,please check with descriptions!Model Size:Height:5'3",Weight:102lbs.
Mordenmiss has registered US Trademark "Mordenmiss". This item is only provided by Mordenmiss, and did not authorize any second stores to sell our items. If other seller follow selling our items, please kindly notice us or report to Amazon directly. Mordenmiss only gurantee our quality, we do not guarantee the quality of other sellers.
This dress is made of soft cotton linen, very breathable, drape good, comfortable to wear. The simple line, loose model and casual style are just for your easy, leisure life! Great for every occasion: summer, working, travel, holiday, party, formal, festivals......
Warmly Note: Mordenmiss size:Height: 5'2", Weight: 99lb Color difference: We strive to make our colors as accurate as possible; however, due to individual monitor settings, we cannot guarantee that the color you see on your screen is the exact color of the product. Size difference: This size information is just for reference only,and allow 1-2cm (0.4-0.8") differences due to manual measurement.