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Automotive display glass substrates are specialty materials that serve as the foundation for a range of in-car displays.
These displays act as the user interface for several vehicle applications, including rear-seat entertainment, instrument clusters, navigation systems, and infotainment systems.
To ensure their appropriateness for use in automobiles, the glass substrates used in automotive displays must adhere to a set of performance requirements and safety requirements.
The risk of damage in the event of a fracture must be kept to a minimum when designing automotive display glass substrates.
They are often made of laminated or tempered glass, which lessens the possibility that it will shatter into sharp pieces when it is hit.
For applications like instrument clusters and heads-up displays (HUDs), high optical clarity is crucial for a clear and vibrant display.
The glass substrates for vehicle displays must be impact- and scratch-resistant to withstand the varied weather conditions that they are subjected to while maintaining visibility.
Some vehicle display glass substrates have anti-glare and anti-reflective coatings applied to them to enhance vision and lessen reflections.
Many of the displays in contemporary cars are touchscreens.
Such displays require glass substrates that are compatible with touch-sensitive technology and offer precise and fluid touch response.
To achieve these standards, automotive display glass substrates are produced utilizing cutting-edge glass technologies.
To make sure they adhere to industry standards and requirements for car safety, they go through rigorous testing.
The car business is always changing, and advancements in display technologies and materials can result in even more advancements.
The Global Automotive display glass substrate market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
AGC has been successful in creating a glass substrate with a high refractive index and transparency for use in AR/MR glasses.
In Japan, the business has already set up a mechanism for mass producing the glass.
The creation of displays that “virtually augment” the environment by overlaying virtual visual data on our perception of the physical environment has gained traction in recent years.
AGC has been creating and proposing glass substrates with a variety of properties for semiconductor packages and optical electronic components for the next-generation gadget.
For AR/MR glasses, the glass substrate needs to have a “high refractive index” in order to increase the viewing angle and “high transparency” in order to display pictures clearly.
In order to transmit images with the utmost accuracy, highly sophisticated glass processing technology is also needed.
