How did Huawei's "unbreakable" Kunlun glass perform in a concrete drop test?
A concrete drop test shows how strong Huawei's Kunlun glass really is
The first drop was from waist high and was targeted to land on the phone's 6.74-inch AMOLED display. The side of the screen showed some scrapes as did the corners of the frame. Other than that, the glass held up very well. 
The second drop was from head high, screen side down, onto the concrete. Luckily for the phone, the device twisted before it hit the ground and the glass never touched the concrete and the phone landed on its backside. So there was no damage to the glass after that drop but we certainly couldn't chalk it up to the strength of the Kunlun glass. So another attempt was made to drop the Mate 50 Pro on the screen from head high. On this attempt, the glass did kiss the concrete but there was no damage to the display.

The host of the video points out that the Gorilla Glass Victus 2 protected displays on both the Galaxy S23+ and Galaxy S23 Ultra cracked on the very first drop (waist-high, screen down) when he drop-tested them recently. His conclusion? He'd like to see more smartphones use the Kunlun glass that Huawei used on the Mate 50 Pro.
The Huawei P60 line is expected to be unveiled next month
Next month, Huawei is expected to introduce the photography-based P60 series and this flagship line should also feature Kunlun glass. Besides the toughened glass display, other innovations on the Mate 50 Pro that should be found on the P60 Pro include Huawei's in-house XMAGE photography system and the Low battery emergency mode. This kicks in with only 1% of battery life remaining and allows users to make up to 12 minutes of phone calls while keeping the device running on standby for up to three hours.The Kunlun glass and the other innovations show that even with the United States holding one hand behind the Chinese manufacturer's back, it can still come up with worthy innovations. And the latest reports have Huawei testing their own chipsets although these won't be made using the same cutting-edge process nodes that are employed by both TSMC and Samsung Foundry.
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