x

*Want to search a historical price chart of products or the lowest ever price? Search for the name of the product or paste the product's link in the search box and hit enter. you will see the product's historical milestone prices, charts, and all current offers with Price History. Do check Amazon Price Tracker and Flipkart Price Tracker for price traking.

Glasgow for Mi Redmi Note 9
17th Jul 2026, 04:54 AM

Glasgow | for Mi Redmi Note 9 Pro Max Honeycomb Dual Layer Hard Back Bumper Case Cover for Mi Redmi Note 9 Pro Max - Black

Price may vary by location, shipping cost, and availability.
68% Off
₹253
₹799

Highest: ₹299
Average: ₹262
Lowest: ₹223

Should you buy at this price?

Skip
Wait
Okay
Yes

Based our analysis and observation, there is 80.99% chance that the price of Glasgow for Mi Redmi Note 9... will increase. Price of product might fluctuate around 3% from current price.*

Price History Graph

Offer Price Prices
Lowest: -
Average: -
Highest: -

Price History Information

You can check the price history of Glasgow | for Mi Redmi Note 9 Pro Max Honeycomb Dual Layer Hard Back Bumper Case Cover for Mi Redmi Note 9 Pro Max - Black here. This product's current Price in India is ₹253. The average and highest prices are ₹262 and ₹299 respectively.

Lowest Ever Price ₹223
25th Sep 2025
Average Price ₹262
Based on 1238 days price tracking
Highest Price ₹299
28th Feb 2023

Price History of All Variants of Glasgow for Mi Redmi Note 9...

Current Price in India

Price ₹253
MRP ₹799
Savings ₹546
Discount 68.33%

Recent Price Drops on Glasgow | for Mi Redmi Note 9 Pro Max Honeycomb Dual Layer Hard Back Bumper Case Cover for Mi Redmi Note 9 Pro Max - Black

Price Drop 25th Sep 2025
₹253 ₹223
11.86% drop
Price Drop 20th Jan 2025
₹269 ₹253
5.95% drop
Price Drop 14th Jan 2025
₹299 ₹269
10.03% drop
Price Drop 9th May 2024
₹299 ₹282
5.69% drop

Product Information

Details

Product Name Glasgow | for Mi Redmi Note 9 Pro Max Honeycomb Dual Layer Hard Back Bumper Case Cover for Mi Redmi Note 9 Pro Max - Black
Store Product Code B08DY7LQHS
Store Name amazon.in
Brand Glasgow
Rating 8.4 / 10
Category Bumpers
Product Manufacturer GLASGOW, Glasgow No 14 OTC Rd Bangalore-2 Suportus45@gmail.com
Model Number Mi Redmi Note 9 Pro Max
Model Number Mi Redmi Note 9 Pro Max
Dimensions 17 x 12 x 1 cm; 60 g
Country of Origin India

Features

  • Stylish Design: Perfect honeycomb patterns add to the stylish and beautiful design and enhances the looks of your iPhone
  • Drop Protection: Raised lip protects your screen from drops and surface scratches. It will take the impact, preventing your phone screen from cracking and breaking.
  • Air Cushioned: Each corner is super imposed with extra protection which protects the phone in case of bumps and falls
  • Dual Layered: With a hard outer layer and a rubberized inner shell, the case guards the front screen as well as back camera against scratches.
  • Made of shock proof high grade TPU materials, TPU is class of polyurethane plastics which has many properties, including elasticity, and resistance to oil, grease and abrasion.

Images

×
Image of Glasgow | for Mi Redmi Note 9 Pro Max Honeycomb Dual Layer Hard Back Bumper Case Cover for Mi Redmi Note 9 Pro Max - Black
Image of Glasgow | for Mi Redmi Note 9 Pro Max Honeycomb Dual Layer Hard Back Bumper Case Cover for Mi Redmi Note 9 Pro Max - Black
Image of Glasgow | for Mi Redmi Note 9 Pro Max Honeycomb Dual Layer Hard Back Bumper Case Cover for Mi Redmi Note 9 Pro Max - Black
Image of Glasgow | for Mi Redmi Note 9 Pro Max Honeycomb Dual Layer Hard Back Bumper Case Cover for Mi Redmi Note 9 Pro Max - Black
Image of Glasgow | for Mi Redmi Note 9 Pro Max Honeycomb Dual Layer Hard Back Bumper Case Cover for Mi Redmi Note 9 Pro Max - Black

Rating and Reviews

8.4 Based on 739 reviews

Glasgow for Mi Redmi Note 9 has 8.4 rating out of 10. This average rating is consist of 739 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.