Treo by Milton Orbit High Borosilicate Glass Tea & Coffee Mug Set of 2, 150 ml Each I Micro Wave & Refrigerator Safe I Reduced Condensation I Food Safe I Premium Gifts for Woman, Man
Price may vary by location, shipping cost, and availability.
You can check the price history of Treo by Milton Orbit High Borosilicate Glass Tea & Coffee Mug Set of 2, 150 ml Each I Micro Wave & Refrigerator Safe I Reduced Condensation I Food Safe I Premium Gifts for Woman, Man here.
Product Information
Details
Product Name
Treo by Milton Orbit High Borosilicate Glass Tea & Coffee Mug Set of 2, 150 ml Each I Micro Wave & Refrigerator Safe I Reduced Condensation I Food Safe I Premium Gifts for Woman, Man
Store Product Code
B0FWCSQGP3
Store Name
amazon.in
Brand
Treo
Rating
7.8 / 10
Category
Coffee Cups & Mugs
Product Manufacturer
Hamilton Housewares P. Ltd., SRV NO. 98/1/1, 98/1/2, 99/2/1, 100/1/1, Village Silli, UT of Dadar & Nagar Haveli, Silvassa-396230
Size
ORBIT 150 ML DOUBLE WALL MUG 2PCS SET
Country of Origin
China
Features
50 YEARS OF INDIAN INNOVATION Crafted with decades of expertise, this product reflects Indias trusted quality and design legacy.
DURABLE BOROSILICATE GLASS : Made from high-quality borosilicate glass, this mug is durable, lightweight, heat resistant, and perfect for daily tea & coffee use.
MICROWAVE AND REFRIGERATOR SAFE : Mug for effortless reheating and storage, making it convenient for hot and cold beverages.
REDUCED CONDENSATION DESIGN : Prevents water rings on tables and ensures a comfortable grip while enjoying hot or cold drinks.
ELEGANT GLASS MUG : With premium look, a perfect gifting choice for men and women for birthdays, anniversaries, or festive occasions.
Images
×
Rating and Reviews
7.8Based on 26 reviews
Treo by Milton Orbit High Borosilicate Glass has 7.8 rating out of 10. This average rating is consist of 26 individual ratings. You can rate this product at product review page.
* Predictions is created on based of past prices and trends, it does not guarantee that it will happen. These are just prediction for theoretical information only.