CORNING, N.Y., JULY 18, 2018 Corning Incorporated GLW, +11.33% today introduced its latest breakthrough in glass technology, Corning(R) Gorilla(R) Glass 6.
CORNING, N.Y., JULY 18, 2018 Corning Incorporated GLW, +11.33% today introduced its latest breakthrough in glass technology, Corning(R) Gorilla(R) Glass 6. Built on a decade-long legacy of delivering the toughest cover glass available for consumer mobile devices, Gorilla Glass 6 is Corning's most durable cover glass to date.
"As consumers become more dependent on their smartphones, the opportunity for potentially damaging drops is also on the rise. Now more than ever, it's critical that the cover glass provides outstanding protection," said John Bayne, vice president and general manager, Corning Gorilla Glass. "Corning Gorilla Glass 6 improves upon Gorilla(R) Glass 5 by surviving drops from higher heights, but, more importantly, has been engineered to survive multiple drops."
Durability that Adds Up
A recent worldwide Toluna consumer study revealed that, on average, people drop their phones seven times a year, with more than 50 percent of the drops occurring at 1 meter or below. To improve cover glass performance, Corning scientists developed and engineered an entirely new material to address the challenge of multiple drops. On average, in lab tests, Gorilla Glass 6 survived 15 drops from 1 meter onto rough surfaces, and is up to two times better than Gorilla Glass 5. Under the same test conditions, competitive glass compositions, such as soda lime and aluminosilicate, did not survive the first drop.
"Gorilla Glass 6 is an entirely new glass composition that can be chemically strengthened to give it significantly higher levels of compression than is possible with Gorilla Glass 5. This enables Gorilla Glass 6 to be more resistant to damage," said Dr. Jaymin Amin, vice president of technology and product development, Corning Gorilla Glass and Corning Specialty Materials. "Moreover, with breaks during drops being a probabilistic event, the added compression helps increase, on average, the likelihood of survival through multiple drop events."